Airfoil Shape for a Turbine Rotor Blade

ABSTRACT

A turbine rotor blade is provided including an airfoil having an airfoil shape. The airfoil shape having a nominal profile substantially in accordance with Cartesian coordinate values of X, Y and Z set forth in Table I wherein the Cartesian coordinate values of X, Y and Z are non-dimensional values from 0% to 100% convertible to dimensional distances in inches by multiplying the Cartesian coordinate values of X, Y and Z by a height of the airfoil in inches, and wherein X and Y are distances in inches which, when connected by smooth continuing arcs, define airfoil profile sections at each distance Z, the airfoil profile sections at Z distances being joined smoothly with one another to form a complete airfoil shape.

FIELD

The present invention relates to an airfoil for a turbine rotor blade of a stage of a turbine and particularly relates to a shape defining a profile for an airfoil of a turbine rotor blade.

BACKGROUND

Some aircraft and/or power plant systems, for example certain jet aircraft, nuclear, simple cycle and combined cycle power plant systems, employ turbines (also referred to as turbomachines) in their design and operation. Some of these turbines employ airfoils (e.g., stator vanes or nozzles and turbine rotor blades.) which during operation are exposed to fluid flows. These airfoils are configured to aerodynamically interact with the fluid flows and generate energy (e.g., creating thrust, turning kinetic energy to mechanical energy, thermal energy to mechanical energy, etc.) from these fluid flows as part of power generation. As a result of this interaction and conversion, the aerodynamic characteristics and losses of these airfoils have an impact on system and turbine operation, performance, thrust, efficiency, and power.

BRIEF DESCRIPTION

Aspects and advantages are set forth below in the following description, or may be obvious from the description, or may be learned through practice.

An aspect of the present invention may be embodied by a turbine rotor blade including an airfoil having an airfoil shape, the airfoil having a nominal profile substantially in accordance with Cartesian coordinate values of X, Y and Z set forth in Table I wherein the Cartesian coordinate values of X, Y and Z are non-dimensional values from 0% to 100% convertible to dimensional distances in inches by multiplying the Cartesian coordinate values of X, Y and Z by a height of the airfoil in inches, and wherein X and Y are distances in inches which, when connected by smooth continuing arcs, define airfoil profile sections at each distance Z, the airfoil profile sections at Z distances being joined smoothly with one another to form a complete airfoil shape.

An aspect of the present invention may be embodied in a turbine rotor blade including an airfoil having a suction-side uncoated nominal airfoil profile substantially in accordance with suction-side Cartesian coordinate values of X, Y and Z set forth in Table I wherein the Cartesian coordinate values of X, Y and Z are non-dimensional values from 0% to 100% convertible to dimensional distances in inches by multiplying the Cartesian coordinate values of X, Y and Z by a height of the airfoil in inches, and wherein X and Y are distances in inches which, when connected by smooth continuing arcs, define airfoil profile sections at each Z distance, the airfoil profile sections at the Z distances being joined smoothly with one another to form a complete suction-side airfoil shape, the X, Y and Z distances being scalable as a function of the same constant or number to provide a scaled-up or scaled-down airfoil.

An aspect of the present invention may be embodied in a turbine comprising a turbine wheel having a plurality of turbine rotor blades, each of the turbine rotor blades including an airfoil having a suction-side airfoil shape, the airfoil having a nominal profile substantially in accordance with suction-side Cartesian coordinate values of X, Y and Z set forth in Table I wherein the Cartesian coordinate values of X, Y and Z are non-dimensional values from 0% to 100% convertible to dimensional distances by multiplying the Cartesian coordinate values of X, Y and Z by a height of the airfoil, and wherein X and Y are distances which, when connected by smooth continuing arcs, define airfoil profile sections at each Z distance, the airfoil profile sections at the Z distances being joined smoothly with one another to form a complete suction-side airfoil shape.

Those of ordinary skill in the art will better appreciate the features and aspects of such embodiments, and others, upon review of the specification.

BRIEF DESCRIPTION OF THE DRAWINGS

A full and enabling disclosure of various embodiments, including the best mode thereof to one skilled in the art, is set forth more particularly in the remainder of the specification, including reference to the accompanying figures, in which:

FIG. 1 is a schematic representation of an exemplary turbine having multiple stages with each stage including alternating rows of turbine rotor blades and stationary vanes or nozzles according to at least one embodiment of the present disclosure;

FIG. 2 is a perspective view of a turbine rotor blade according to at least one embodiment of the present disclosure; and

FIG. 3 provides a top view of an exemplary turbine rotor blade according to at least one embodiment.

DETAILED DESCRIPTION

Referring now to the drawings, particularly to FIG. 1, there is illustrated an exemplary turbine 10 of a gas turbine 12 including a plurality of turbine stages arranged in serial flow order. Each stage of the turbine includes a row of turbine nozzles or vanes disposed axially adjacent to a corresponding row of turbine rotor blades. Four stages are illustrated in FIG. 1. The exact number of stages of the turbine 10 is a choice of engineering design, and may be more or less than the four stages illustrated in FIG. 1. The four stages are merely exemplary of one turbine design, and are not intended to limit the presently claimed turbine rotor blade in any manner.

The first stage comprises a plurality of turbine nozzles or vanes 100 and a plurality of turbine rotor blades 150. The turbine nozzles 100 are annularly arranged about an axis of a turbine rotor 14. The turbine rotor blades 150 are annularly arranged about and coupled to the turbine rotor 14. A second stage of the turbine 12 includes a plurality of turbine nozzles 200 annularly arranged about the axis of the turbine rotor 14 and a plurality of turbine rotor blades 250 annularly arranged about and coupled to the turbine rotor 14. The turbine nozzles 200 may be coupled to a casing 16 of the turbine 12.

As shown in FIG. 1, a third stage of the turbine 12 includes a plurality of turbine nozzles 300 annularly arranged about the axis of the turbine rotor 14 and a plurality of turbine rotor blades 350 annularly arranged about and coupled to the turbine rotor 14. The turbine nozzles 300 may be coupled to the casing 16 of the turbine 12. In particular embodiments, the turbine 12 includes a fourth stage which includes plurality of turbine nozzles 400 annularly arranged about the axis of the turbine rotor 14 and a plurality of turbine rotor blades 450 annularly arranged about and coupled to the turbine rotor 14. The fourth stage turbine nozzles 400 may be coupled to the casing 16 of the turbine 12.

It will be appreciated that the turbine nozzles 100, 200, 300 and 400 and turbine rotor blades 150, 250, 350 and 450 are disposed or at least partially disposed within a hot gas path 18 of the turbine 12. The various stages of the turbine 10 at least partially define the hot gas path 18 through which combustion gases, as indicated by arrows 20, flow during operation of the gas turbine 12.

FIG. 2 provides a perspective view of an exemplary turbine rotor blade 50 as may be incorporated in any stage of the turbine 12. For example, in one embodiment the turbine rotor blade 50 as presented in Table I below is representative of a turbine rotor blade 450 of the plurality of turbine rotor blades 450 of the fourth stage. As shown in FIG. 2, the turbine rotor blade 50 includes an airfoil 52 having a pressure-side wall 54 and an opposing suction-side wall 56. The pressure-side wall 54 and the suction-side wall 56 meet or intersect at a leading edge 58 and a trailing edge 60 of the airfoil 52. A chord line 62 extends between the leading edge 58 and the trailing edge 60 such that pressure and suction-side walls 54, 56 can be said to extend in chord or chordwise between the leading edge 58 and the trailing edge 60.

The airfoil 52 includes a root or first end 64 which intersects with and extends radially outwardly from a base or platform 66 of the turbine rotor blade 50. The airfoil 52 terminates radially at a second end or radial tip 68 of the airfoil 52. The pressure and suction-side walls 54, 56 can be said to extend in span or in a span-wise direction 70 between the root 64 and/or the platform 66 and the radial tip 68 of the airfoil 52. In other words, each turbine rotor blade 50 includes an airfoil 52 having opposing pressure and suction-side walls 54, 56 that extend in chord or chordwise 62 between opposing leading and trailing edges 58, 60 and that extend in span or span-wise 70 between the root 64 and the radial tip 68 of the airfoil 52.

In particular configurations, the airfoil 52 may include a fillet 72 formed between the platform 66 and the airfoil 52 proximate to the root 64. The fillet 72 can include a weld or braze fillet, which can be formed via conventional MIG welding, TIG welding, brazing, etc., and can include a profile that can reduce fluid dynamic losses as a result of the presence of fillet 72. In particular embodiments, the platform 66, airfoil 52 and the fillet 72 can be formed as a single component, such as by casting and/or machining and/or 3D printing and/or any other suitable technique now known or later developed and/or discovered. In particular configurations, the turbine rotor blade 50 includes a mounting portion 74 which is formed to connect and/or to secure the turbine rotor blade 50 to the rotor shaft 14.

The airfoil 52 of the turbine rotor blade 50 has a profile at any cross-section taken between the platform 66 or the root 64 and the radial tip 68. The X, Y, and Z values are given in Table I as percentage values of the airfoil length or height/span. As one example only, the height or radial span of the airfoil 52 of turbine rotor blade 50 may be from about 5 inches to about 50 inches. However, it is to be understood that heights below or above this range may also be employed as desired in the specific application.

A gas turbine hot gas path requires airfoils that meet system requirements of aerodynamic and mechanical blade loading and efficiency. To define the airfoil shape of each turbine rotor blade airfoil, there is a unique set or loci of points in space that meet the stage requirements and that can be manufactured. This unique loci of points meets the requirements for stage efficiency and are arrived at by iteration between aerodynamic and mechanical loadings enabling the turbine to run in an efficient, safe and smooth manner. These points are unique and specific to the system and are not obvious to those skilled in the art.

The loci which defines the airfoil profile of turbine rotor blade 50 comprises a set of about 1,100 points with X, Y and Z dimensions relative to a reference origin coordinate system. The Cartesian coordinate system of X, Y and Z values given in Table I below defines the airfoil profile of the turbine rotor blade 50 at various locations along its length and height or radial span. Table I lists data for a non-coated airfoil, and the envelope/tolerance for the coordinates is about +/−5% in a direction normal to any airfoil surface location. A point data origin 76 is defined at or proximate to the root 64 at the leading edge 58. In one embodiment as presented in Table I below, the point data origin 76 is defined at or proximate to (above or below) a transition or intersection line 78 defined between the fillet 72 and the airfoil 52. The point data origin 76 corresponds to the non-dimensional Z value of Table I (presented below) at Z equals 0.

In particular embodiments, as partially shown in FIG. 2, the airfoil 52 includes a part-span shroud 80 defined by and/or connected to an intermediate section of the airfoil 52 between the root 64 and the tip 68. FIG. 3 provides a top view of an exemplary turbine rotor blade 50, 450 according to at least one embodiment. In the exemplary embodiment, as shown in FIG. 3, the part-span shroud 80 includes a pressure-side shroud 82 that is defined along the pressure-side 54 of the airfoil 52 between forty (40) percent and seventy (70) percent span of the total radial span 70 of the airfoil 52. In addition or in the alternative, the part-span shroud 80 includes a suction-side shroud 84 that is defined along the suction-side 56 of the airfoil 52 between 40 percent and 80 percent span of the total radial span 70 of the airfoil 52. In the exemplary embodiment illustrated in FIG. 3, the pressure-side shroud 82 and the suction-side shroud 84 of adjacent blades 20 are joined to the airfoil 52 at fillets 86 and 88 respectfully.

Turbine rotor blade stiffness and damping characteristics are improved as the pressure-side and suction-side shrouds 82, 84 contact with circumferentially adjacent pressure-side and suction-side shrouds of adjacent turbine rotor blades 50 during untwisting of the blade. The plurality of turbine rotor blades 50 thus behave as a single, continuously coupled structure that exhibits improved stiffness and dampening characteristics when compared to a discrete and uncoupled design.

The loci which defines the pressure-side shroud 82 portion of the airfoil profile of turbine rotor blade 50 comprises a set of about 150 points with X, Y and Z dimensions relative to the reference origin coordinate system. The Cartesian coordinate system of X, Y and Z values given in Table II below defines the pressure-side shroud 82 portion of the airfoil profile of the turbine rotor blade 50 at various locations along its length and height or radial span. The Cartesian coordinate system of X, Y and Z values given in Table III below defines the suction-side shroud 84 portion of the airfoil profile of the turbine rotor blade 50 at various locations along its length and height or radial span. Tables II and III lists data for a non-coated airfoil, and the envelope/tolerance for the coordinates is about +/−5% in a direction normal to any airfoil surface location.

The coordinate values for the X, Y and Z coordinates are set forth in non-dimensionalized units by the airfoil height in Tables I, II and III although other units of dimensions may be used when the values are appropriately converted. The X, Y, and Z values set forth in Tables I, II and III are also expressed in non-dimensional form (X, Y, and Z) from 0% to 100% of the airfoil 52 height or radial span 70. To convert the Z value to a Z coordinate value, e.g., in inches, the non-dimensional Z value given in Tables I, II and III is multiplied by the Z length of the airfoil 52 in inches. As described above, the Cartesian coordinate system has orthogonally-related X, Y and Z axes and the X axis lies generally parallel to a centerline of the rotor shaft 14, i.e., the rotary axis and a positive X coordinate value is axial toward an aft, i.e., exhaust end of the turbine 10. The positive Y coordinate value extends tangentially in the direction of rotation of the rotor and the positive Z coordinate value is radially outwardly toward the radial tip 68. All the values in Tables I, II and III are given at room temperature and do not include the fillet 72.

By defining X and Y coordinate values at selected locations in a Z direction normal to the X, Y plane, the profile section or airfoil shape of the airfoil 52 of the turbine rotor blade 50, at each Z distance along the length of the airfoil 52 can be ascertained. By connecting the X and Y values with smooth continuing arcs, each profile section at each distance Z is fixed. The airfoil profiles of the various surface locations between the distances Z are determined by smoothly connecting the adjacent profile sections to one another to form the airfoil profile.

The values in Tables I, II and III are generated and shown to four decimal places for determining the profile of the airfoil 52. As the turbine rotor blade 50 heats up during operation of the gas turbine 12, surface stress and temperature will cause a change in the X, Y and Z's. Accordingly, the values for the profile given in Tables I, II and III represent ambient, non-operating or non-hot conditions (e.g., room temperature) and are for an uncoated airfoil.

There are typical manufacturing tolerances as well as coatings which must be accounted for in the actual profile of the airfoil 52. Each cross-section is joined smoothly with the other cross-sections to form the complete airfoil shape. It will therefore be appreciated that +/− typical manufacturing tolerances, i.e., +/− values, including any coating thicknesses, are additive to the X and Y values given in Tables I, II and III below. Accordingly, a distance of +/−5% in a direction normal to any surface location along the airfoil profile defines an airfoil profile envelope for this particular turbine rotor blade 50 airfoil design and turbine 12, i.e., a range of variation between measured points on the actual airfoil surface at nominal cold or room temperature and the ideal position of those points as given in Tables I, II and III below at the same temperature. The data provided in Tables I, II and III is scalable and the geometry pertains to all aerodynamic scales, at, above and/or below a 3000-3600 RPM range. The design of the airfoil 52 for turbine rotor blade 50 is robust to this range of variation without impairment of mechanical and aerodynamic functions.

TABLE I SUCTION-SIDE PRESSURE-SIDE X (%) Y (%) Z (%) N X (%) Y (%) Z (%) 0.0000 0.0000 0.0000 1 0.0213 −0.3900 0.0000 0.0216 −0.3904 0.0000 2 0.3671 −0.4648 0.0000 0.1807 0.3661 0.0000 3 0.7189 −0.3595 0.0000 0.4209 0.6967 0.0000 4 1.0611 −0.2236 0.0000 0.6917 1.0030 0.0000 5 1.4043 −0.0904 0.0000 0.9767 1.2960 0.0000 6 1.7475 0.0422 0.0000 1.2701 1.5811 0.0000 7 2.0917 0.1731 0.0000 1.5714 1.8578 0.0000 8 2.4359 0.3027 0.0000 1.8804 2.1256 0.0000 9 2.7811 0.4306 0.0000 2.1960 2.3857 0.0000 10 3.1266 0.5571 0.0000 2.5183 2.6375 0.0000 11 3.4731 0.6817 0.0000 2.8465 2.8814 0.0000 12 3.8199 0.8047 0.0000 3.1804 3.1176 0.0000 13 4.1674 0.9259 0.0000 3.5196 3.3462 0.0000 14 4.5156 1.0452 0.0000 3.8635 3.5671 0.0000 15 4.8645 1.1621 0.0000 4.2123 3.7807 0.0000 16 5.2143 1.2771 0.0000 4.5654 3.9874 0.0000 17 5.5645 1.3900 0.0000 4.9226 4.1867 0.0000 18 5.9156 1.5003 0.0000 5.2834 4.3791 0.0000 19 6.2674 1.6086 0.0000 5.6478 4.5645 0.0000 20 6.6199 1.7143 0.0000 6.0156 4.7429 0.0000 21 6.9731 1.8176 0.0000 6.3867 4.9150 0.0000 22 7.3272 1.9183 0.0000 6.7608 5.0804 0.0000 23 7.6817 2.0166 0.0000 7.1375 5.2395 0.0000 24 8.0372 2.1120 0.0000 7.5173 5.3920 0.0000 25 8.3934 2.2047 0.0000 7.8990 5.5379 0.0000 26 8.7505 2.2947 0.0000 8.2834 5.6777 0.0000 27 9.1080 2.3817 0.0000 8.6698 5.8113 0.0000 28 9.4664 2.4658 0.0000 9.0585 5.9389 0.0000 29 9.8252 2.5468 0.0000 9.4492 6.0605 0.0000 30 10.1850 2.6249 0.0000 9.8415 6.1757 0.0000 31 10.5452 2.7000 0.0000 10.2355 6.2850 0.0000 32 10.9063 2.7721 0.0000 10.6312 6.3884 0.0000 33 11.2678 2.8409 0.0000 11.0282 6.4857 0.0000 34 11.6299 2.9063 0.0000 11.4269 6.5774 0.0000 35 11.9927 2.9688 0.0000 11.8269 6.6631 0.0000 36 12.3558 3.0279 0.0000 12.2279 6.7429 0.0000 37 12.7196 3.0837 0.0000 12.6302 6.8169 0.0000 38 13.0841 3.1359 0.0000 13.0336 6.8850 0.0000 39 13.4488 3.1850 0.0000 13.4375 6.9475 0.0000 40 13.8140 3.2306 0.0000 13.8425 7.0043 0.0000 41 14.1797 3.2728 0.0000 14.2485 7.0551 0.0000 42 14.5455 3.3113 0.0000 14.6548 7.1003 0.0000 43 14.9120 3.3462 0.0000 15.0618 7.1395 0.0000 44 15.2787 3.3777 0.0000 15.4694 7.1731 0.0000 45 15.6455 3.4053 0.0000 15.8774 7.2010 0.0000 46 16.0130 3.4296 0.0000 16.2860 7.2226 0.0000 47 16.3804 3.4502 0.0000 16.6947 7.2389 0.0000 48 16.7482 3.4668 0.0000 17.1033 7.2488 0.0000 49 17.1159 3.4801 0.0000 17.5123 7.2532 0.0000 50 17.4837 3.4894 0.0000 17.9213 7.2515 0.0000 51 17.8518 3.4947 0.0000 18.3302 7.2439 0.0000 52 18.2199 3.4963 0.0000 18.7389 7.2306 0.0000 53 18.5877 3.4940 0.0000 19.1475 7.2106 0.0000 54 18.9558 3.4880 0.0000 19.5558 7.1850 0.0000 55 19.3239 3.4781 0.0000 19.9635 7.1532 0.0000 56 19.6917 3.4641 0.0000 20.3704 7.1150 0.0000 57 20.0591 3.4462 0.0000 20.7771 7.0708 0.0000 58 20.4266 3.4243 0.0000 21.1831 7.0199 0.0000 59 20.7937 3.3983 0.0000 21.5877 6.9625 0.0000 60 21.1605 3.3684 0.0000 21.9917 6.8990 0.0000 61 21.5269 3.3346 0.0000 22.3947 6.8286 0.0000 62 21.8930 3.2963 0.0000 22.7963 6.7515 0.0000 63 22.2588 3.2545 0.0000 23.1967 6.6674 0.0000 64 22.6239 3.2083 0.0000 23.5953 6.5767 0.0000 65 22.9884 3.1585 0.0000 23.9924 6.4791 0.0000 66 23.3525 3.1043 0.0000 24.3877 6.3741 0.0000 67 23.7159 3.0462 0.0000 24.7811 6.2618 0.0000 68 24.0787 2.9837 0.0000 25.1721 6.1422 0.0000 69 24.4405 2.9173 0.0000 25.5608 6.0153 0.0000 70 24.8017 2.8465 0.0000 25.9468 5.8804 0.0000 71 25.1621 2.7718 0.0000 26.3302 5.7379 0.0000 72 25.5216 2.6924 0.0000 26.7103 5.5870 0.0000 73 25.8801 2.6086 0.0000 27.0870 5.4279 0.0000 74 26.2372 2.5203 0.0000 27.4601 5.2601 0.0000 75 26.5934 2.4272 0.0000 27.8289 5.0837 0.0000 76 26.9482 2.3296 0.0000 28.1937 4.8983 0.0000 77 27.3017 2.2272 0.0000 28.5535 4.7040 0.0000 78 27.6538 2.1196 0.0000 28.9083 4.5007 0.0000 79 28.0040 2.0073 0.0000 29.2575 4.2880 0.0000 80 28.3528 1.8897 0.0000 29.6013 4.0661 0.0000 81 28.6997 1.7668 0.0000 29.9385 3.8349 0.0000 82 29.0445 1.6382 0.0000 30.2691 3.5940 0.0000 83 29.3870 1.5037 0.0000 30.5924 3.3435 0.0000 84 29.7272 1.3625 0.0000 30.9080 3.0837 0.0000 85 30.0641 1.2150 0.0000 31.2159 2.8146 0.0000 86 30.3983 1.0608 0.0000 31.5163 2.5372 0.0000 87 30.7296 0.9000 0.0000 31.8103 2.2525 0.0000 88 31.0575 0.7329 0.0000 32.0980 1.9621 0.0000 89 31.3821 0.5595 0.0000 32.3807 1.6664 0.0000 90 31.7037 0.3804 0.0000 32.6585 1.3664 0.0000 91 32.0213 0.1947 0.0000 32.9319 1.0625 0.0000 92 32.3346 0.0013 0.0000 33.2013 0.7545 0.0000 93 32.6419 −0.2010 0.0000 33.4671 0.4439 0.0000 94 32.9429 −0.4130 0.0000 33.7296 0.1302 0.0000 95 33.2365 −0.6346 0.0000 33.9900 −0.1850 0.0000 96 33.5233 −0.8654 0.0000 34.2492 −0.5017 0.0000 97 33.8037 −1.1037 0.0000 34.5070 −0.8193 0.0000 98 34.0794 −1.3475 0.0000 34.7010 −1.5173 0.0000 99 34.3601 −1.5827 0.0000 34.7595 −1.1405 0.0000 100 34.7010 −1.5173 0.0000 2.3960 1.7997 10.7973 1 2.3960 1.7997 10.7973 2.4090 2.1518 10.7973 2 2.6910 1.6731 10.7973 2.6003 2.4638 10.7973 3 3.0216 1.7093 10.7973 2.8442 2.7375 10.7973 4 3.3449 1.7907 10.7973 3.1103 2.9900 10.7973 5 3.6674 1.8751 10.7973 3.3847 3.2332 10.7973 6 3.9900 1.9595 10.7973 3.6668 3.4678 10.7973 7 4.3123 2.0442 10.7973 3.9555 3.6944 10.7973 8 4.6349 2.1289 10.7973 4.2502 3.9123 10.7973 9 4.9575 2.2136 10.7973 4.5512 4.1226 10.7973 10 5.2797 2.2980 10.7973 4.8571 4.3246 10.7973 11 5.6027 2.3821 10.7973 5.1684 4.5186 10.7973 12 5.9256 2.4651 10.7973 5.4844 4.7050 10.7973 13 6.2485 2.5472 10.7973 5.8047 4.8837 10.7973 14 6.5718 2.6286 10.7973 6.1292 5.0551 10.7973 15 6.8953 2.7086 10.7973 6.4575 5.2189 10.7973 16 7.2196 2.7877 10.7973 6.7890 5.3757 10.7973 17 7.5439 2.8648 10.7973 7.1239 5.5249 10.7973 18 7.8684 2.9405 10.7973 7.4621 5.6674 10.7973 19 8.1937 3.0146 10.7973 7.8030 5.8030 10.7973 20 8.5189 3.0867 10.7973 8.1465 5.9319 10.7973 21 8.8452 3.1565 10.7973 8.4924 6.0538 10.7973 22 9.1714 3.2243 10.7973 8.8409 6.1691 10.7973 23 9.4983 3.2900 10.7973 9.1910 6.2777 10.7973 24 9.8259 3.3532 10.7973 9.5435 6.3801 10.7973 25 10.1535 3.4140 10.7973 9.8973 6.4761 10.7973 26 10.4817 3.4718 10.7973 10.2532 6.5654 10.7973 27 10.8106 3.5272 10.7973 10.6103 6.6492 10.7973 28 11.1399 3.5797 10.7973 10.9691 6.7266 10.7973 29 11.4694 3.6296 10.7973 11.3289 6.7977 10.7973 30 11.7997 3.6764 10.7973 11.6897 6.8628 10.7973 31 12.1302 3.7199 10.7973 12.0518 6.9223 10.7973 32 12.4611 3.7605 10.7973 12.4146 6.9754 10.7973 33 12.7924 3.7977 10.7973 12.7784 7.0229 10.7973 34 13.1243 3.8319 10.7973 13.1429 7.0648 10.7973 35 13.4561 3.8625 10.7973 13.5080 7.1007 10.7973 36 13.7884 3.8897 10.7973 13.8738 7.1309 10.7973 37 14.1209 3.9133 10.7973 14.2395 7.1551 10.7973 38 14.4538 3.9336 10.7973 14.6060 7.1738 10.7973 39 14.7867 3.9505 10.7973 14.9728 7.1870 10.7973 40 15.1199 3.9635 10.7973 15.3395 7.1944 10.7973 41 15.4532 3.9728 10.7973 15.7063 7.1963 10.7973 42 15.7864 3.9784 10.7973 16.0731 7.1924 10.7973 43 16.1199 3.9804 10.7973 16.4399 7.1831 10.7973 44 16.4532 3.9787 10.7973 16.8063 7.1681 10.7973 45 16.7867 3.9731 10.7973 17.1724 7.1475 10.7973 46 17.1199 3.9635 10.7973 17.5385 7.1213 10.7973 47 17.4532 3.9502 10.7973 17.9040 7.0894 10.7973 48 17.7860 3.9329 10.7973 18.2688 7.0518 10.7973 49 18.1186 3.9116 10.7973 18.6332 7.0086 10.7973 50 18.4512 3.8864 10.7973 18.9967 6.9601 10.7973 51 18.7834 3.8571 10.7973 19.3595 6.9056 10.7973 52 19.1150 3.8239 10.7973 19.7213 6.8455 10.7973 53 19.4462 3.7864 10.7973 20.0824 6.7797 10.7973 54 19.7771 3.7449 10.7973 20.4422 6.7083 10.7973 55 20.1073 3.6993 10.7973 20.8007 6.6309 10.7973 56 20.4369 3.6495 10.7973 21.1581 6.5478 10.7973 57 20.7661 3.5953 10.7973 21.5140 6.4588 10.7973 58 21.0944 3.5372 10.7973 21.8681 6.3641 10.7973 59 21.4219 3.4748 10.7973 22.2209 6.2631 10.7973 60 21.7485 3.4080 10.7973 22.5721 6.1565 10.7973 61 22.0741 3.3369 10.7973 22.9209 6.0435 10.7973 62 22.3990 3.2618 10.7973 23.2681 5.9249 10.7973 63 22.7229 3.1824 10.7973 23.6130 5.8000 10.7973 64 23.0455 3.0987 10.7973 23.9555 5.6688 10.7973 65 23.3671 3.0103 10.7973 24.2957 5.5312 10.7973 66 23.6874 2.9179 10.7973 24.6332 5.3877 10.7973 67 24.0063 2.8213 10.7973 24.9678 5.2375 10.7973 68 24.3243 2.7199 10.7973 25.2997 5.0811 10.7973 69 24.6405 2.6146 10.7973 25.6282 4.9179 10.7973 70 24.9551 2.5050 10.7973 25.9535 4.7482 10.7973 71 25.2684 2.3907 10.7973 26.2754 4.5721 10.7973 72 25.5801 2.2724 10.7973 26.5930 4.3890 10.7973 73 25.8900 2.1495 10.7973 26.9070 4.1987 10.7973 74 26.1983 2.0226 10.7973 27.2163 4.0017 10.7973 75 26.5047 1.8910 10.7973 27.5209 3.7973 10.7973 76 26.8090 1.7551 10.7973 27.8206 3.5857 10.7973 77 27.1116 1.6146 10.7973 28.1153 3.3674 10.7973 78 27.4120 1.4701 10.7973 28.4047 3.1419 10.7973 79 27.7103 1.3213 10.7973 28.6887 2.9096 10.7973 80 28.0066 1.1684 10.7973 28.9671 2.6708 10.7973 81 28.3007 1.0110 10.7973 29.2399 2.4256 10.7973 82 28.5920 0.8495 10.7973 29.5080 2.1754 10.7973 83 28.8814 0.6834 10.7973 29.7714 1.9199 10.7973 84 29.1678 0.5130 10.7973 30.0309 1.6608 10.7973 85 29.4518 0.3382 10.7973 30.2870 1.3980 10.7973 86 29.7329 0.1588 10.7973 30.5399 1.1322 10.7973 87 30.0113 −0.0246 10.7973 30.7904 0.8641 10.7973 88 30.2867 −0.2120 10.7973 31.0382 0.5940 10.7973 89 30.5598 −0.4033 10.7973 31.2844 0.3216 10.7973 90 30.8302 −0.5983 10.7973 31.5286 0.0482 10.7973 91 31.0980 −0.7970 10.7973 31.7718 −0.2266 10.7973 92 31.3625 −1.0000 10.7973 32.0133 −0.5027 10.7973 93 31.6239 −1.2073 10.7973 32.2535 −0.7801 10.7973 94 31.8814 −1.4189 10.7973 32.4927 −1.0581 10.7973 95 32.1349 −1.6355 10.7973 32.7316 −1.3365 10.7973 96 32.3847 −1.8561 10.7973 32.9698 −1.6153 10.7973 97 32.6316 −2.0804 10.7973 33.2073 −1.8950 10.7973 98 32.8754 −2.3080 10.7973 33.4249 −2.5086 10.7973 99 33.1193 −2.5349 10.7973 33.4445 −2.1748 10.7973 100 33.4249 −2.5086 10.7973 4.2904 3.6960 21.5947 1 4.2904 3.6960 21.5947 4.3299 4.0156 21.5947 2 4.5375 3.5352 21.5947 4.5279 4.2837 21.5947 3 4.8409 3.5186 21.5947 4.7704 4.5133 21.5947 4 5.1439 3.5542 21.5947 5.0286 4.7249 21.5947 5 5.4452 3.5993 21.5947 5.2930 4.9292 21.5947 6 5.7465 3.6452 21.5947 5.5638 5.1249 21.5947 7 6.0478 3.6910 21.5947 5.8409 5.3120 21.5947 8 6.3492 3.7372 21.5947 6.1229 5.4907 21.5947 9 6.6505 3.7834 21.5947 6.4103 5.6611 21.5947 10 6.9522 3.8292 21.5947 6.7027 5.8233 21.5947 11 7.2535 3.8748 21.5947 6.9990 5.9771 21.5947 12 7.5548 3.9196 21.5947 7.2997 6.1229 21.5947 13 7.8565 3.9641 21.5947 7.6043 6.2605 21.5947 14 8.1585 4.0073 21.5947 7.9120 6.3904 21.5947 15 8.4601 4.0495 21.5947 8.2229 6.5123 21.5947 16 8.7625 4.0904 21.5947 8.5369 6.6266 21.5947 17 9.0645 4.1302 21.5947 8.8535 6.7336 21.5947 18 9.3671 4.1684 21.5947 9.1728 6.8329 21.5947 19 9.6698 4.2047 21.5947 9.4937 6.9249 21.5947 20 9.9724 4.2395 21.5947 9.8169 7.0096 21.5947 21 10.2757 4.2721 21.5947 10.1419 7.0874 21.5947 22 10.5791 4.3030 21.5947 10.4684 7.1581 21.5947 23 10.8824 4.3316 21.5947 10.7963 7.2223 21.5947 24 11.1860 4.3578 21.5947 11.1256 7.2794 21.5947 25 11.4900 4.3817 21.5947 11.4558 7.3299 21.5947 26 11.7940 4.4030 21.5947 11.7870 7.3741 21.5947 27 12.0983 4.4219 21.5947 12.1189 7.4120 21.5947 28 12.4030 4.4379 21.5947 12.4515 7.4435 21.5947 29 12.7073 4.4512 21.5947 12.7847 7.4688 21.5947 30 13.0120 4.4618 21.5947 13.1183 7.4880 21.5947 31 13.3169 4.4694 21.5947 13.4522 7.5010 21.5947 32 13.6216 4.4741 21.5947 13.7864 7.5083 21.5947 33 13.9266 4.4754 21.5947 14.1203 7.5096 21.5947 34 14.2312 4.4738 21.5947 14.4545 7.5053 21.5947 35 14.5362 4.4691 21.5947 14.7884 7.4950 21.5947 36 14.8409 4.4608 21.5947 15.1223 7.4794 21.5947 37 15.1455 4.4495 21.5947 15.4555 7.4578 21.5947 38 15.4498 4.4346 21.5947 15.7887 7.4309 21.5947 39 15.7542 4.4163 21.5947 16.1213 7.3987 21.5947 40 16.0585 4.3947 21.5947 16.4532 7.3608 21.5947 41 16.3621 4.3698 21.5947 16.7844 7.3176 21.5947 42 16.6658 4.3412 21.5947 17.1150 7.2691 21.5947 43 16.9688 4.3093 21.5947 17.4449 7.2153 21.5947 44 17.2718 4.2738 21.5947 17.7738 7.1561 21.5947 45 17.5741 4.2346 21.5947 18.1013 7.0917 21.5947 46 17.8757 4.1917 21.5947 18.4282 7.0223 21.5947 47 18.1771 4.1455 21.5947 18.7538 6.9475 21.5947 48 18.4777 4.0953 21.5947 19.0784 6.8674 21.5947 49 18.7777 4.0419 21.5947 19.4013 6.7824 21.5947 50 19.0774 3.9844 21.5947 19.7233 6.6924 21.5947 51 19.3761 3.9233 21.5947 20.0435 6.5970 21.5947 52 19.6738 3.8585 21.5947 20.3621 6.4967 21.5947 53 19.9708 3.7897 21.5947 20.6791 6.3914 21.5947 54 20.2668 3.7173 21.5947 20.9944 6.2807 21.5947 55 20.5621 3.6409 21.5947 21.3080 6.1651 21.5947 56 20.8561 3.5611 21.5947 21.6193 6.0442 21.5947 57 21.1492 3.4771 21.5947 21.9289 5.9183 21.5947 58 21.4412 3.3894 21.5947 22.2362 5.7874 21.5947 59 21.7322 3.2980 21.5947 22.5415 5.6512 21.5947 60 22.0216 3.2027 21.5947 22.8442 5.5100 21.5947 61 22.3100 3.1033 21.5947 23.1445 5.3635 21.5947 62 22.5967 3.0003 21.5947 23.4422 5.2120 21.5947 63 22.8824 2.8934 21.5947 23.7372 5.0551 21.5947 64 23.1661 2.7827 21.5947 24.0296 4.8934 21.5947 65 23.4488 2.6681 21.5947 24.3189 4.7262 21.5947 66 23.7296 2.5495 21.5947 24.6053 4.5542 21.5947 67 24.0086 2.4269 21.5947 24.8884 4.3767 21.5947 68 24.2864 2.3007 21.5947 25.1684 4.1940 21.5947 69 24.5618 2.1708 21.5947 25.4449 4.0066 21.5947 70 24.8359 2.0369 21.5947 25.7176 3.8136 21.5947 71 25.1080 1.8993 21.5947 25.9867 3.6159 21.5947 72 25.3781 1.7578 21.5947 26.2522 3.4126 21.5947 73 25.6462 1.6130 21.5947 26.5133 3.2047 21.5947 74 25.9123 1.4641 21.5947 26.7704 2.9910 21.5947 75 26.1761 1.3116 21.5947 27.0233 2.7724 21.5947 76 26.4382 1.1558 21.5947 27.2714 2.5488 21.5947 77 26.6980 0.9963 21.5947 27.5153 2.3203 21.5947 78 26.9555 0.8332 21.5947 27.7545 2.0874 21.5947 79 27.2110 0.6671 21.5947 27.9894 1.8495 21.5947 80 27.4641 0.4973 21.5947 28.2199 1.6076 21.5947 81 27.7153 0.3243 21.5947 28.4465 1.3621 21.5947 82 27.9638 0.1478 21.5947 28.6698 1.1136 21.5947 83 28.2103 −0.0316 21.5947 28.8910 0.8635 21.5947 84 28.4545 −0.2140 21.5947 29.1106 0.6116 21.5947 85 28.6967 −0.3993 21.5947 29.3296 0.3588 21.5947 86 28.9365 −0.5874 21.5947 29.5475 0.1060 21.5947 87 29.1744 −0.7781 21.5947 29.7654 −0.1475 21.5947 88 29.4100 −0.9714 21.5947 29.9831 −0.4010 21.5947 89 29.6435 −1.1674 21.5947 30.2007 −0.6545 21.5947 90 29.8751 −1.3658 21.5947 30.4183 −0.9080 21.5947 91 30.1047 −1.5664 21.5947 30.6359 −1.1618 21.5947 92 30.3322 −1.7694 21.5947 30.8532 −1.4153 21.5947 93 30.5575 −1.9744 21.5947 31.0708 −1.6691 21.5947 94 30.7811 −2.1817 21.5947 31.2884 −1.9226 21.5947 95 31.0030 −2.3907 21.5947 31.5060 −2.1761 21.5947 96 31.2229 −2.6017 21.5947 31.7236 −2.4296 21.5947 97 31.4415 −2.8143 21.5947 31.9409 −2.6834 21.5947 98 31.6585 −3.0286 21.5947 32.1522 −3.2375 21.5947 99 31.8744 −3.2435 21.5947 32.1588 −2.9365 21.5947 100 32.1522 −3.2375 21.5947 5.8681 5.4037 32.3920 1 5.8681 5.4037 32.3920 5.9272 5.6950 32.3920 2 6.0724 5.2252 32.3920 6.1282 5.9269 32.3920 3 6.3455 5.1691 32.3920 6.3661 6.1223 32.3920 4 6.6252 5.1668 32.3920 6.6136 6.3050 32.3920 5 6.9047 5.1804 32.3920 6.8668 6.4797 32.3920 6 7.1841 5.1953 32.3920 7.1262 6.6455 32.3920 7 7.4638 5.2080 32.3920 7.3910 6.8023 32.3920 8 7.7435 5.2193 32.3920 7.6611 6.9502 32.3920 9 8.0229 5.2296 32.3920 7.9355 7.0887 32.3920 10 8.3027 5.2385 32.3920 8.2146 7.2186 32.3920 11 8.5824 5.2458 32.3920 8.4977 7.3395 32.3920 12 8.8621 5.2518 32.3920 8.7844 7.4512 32.3920 13 9.1422 5.2558 32.3920 9.0744 7.5545 32.3920 14 9.4219 5.2585 32.3920 9.3674 7.6488 32.3920 15 9.7017 5.2595 32.3920 9.6631 7.7342 32.3920 16 9.9817 5.2585 32.3920 9.9608 7.8113 32.3920 17 10.2615 5.2555 32.3920 10.2608 7.8801 32.3920 18 10.5412 5.2508 32.3920 10.5628 7.9405 32.3920 19 10.8209 5.2439 32.3920 10.8661 7.9927 32.3920 20 11.1007 5.2349 32.3920 11.1704 8.0369 32.3920 21 11.3804 5.2236 32.3920 11.4761 8.0734 32.3920 22 11.6598 5.2100 32.3920 11.7824 8.1023 32.3920 23 11.9392 5.1944 32.3920 12.0894 8.1239 32.3920 24 12.2186 5.1764 32.3920 12.3970 8.1379 32.3920 25 12.4977 5.1561 32.3920 12.7047 8.1449 32.3920 26 12.7767 5.1332 32.3920 13.0123 8.1449 32.3920 27 13.0555 5.1080 32.3920 13.3199 8.1382 32.3920 28 13.3339 5.0804 32.3920 13.6276 8.1246 32.3920 29 13.6120 5.0498 32.3920 13.9346 8.1047 32.3920 30 13.8900 5.0169 32.3920 14.2412 8.0784 32.3920 31 14.1674 4.9814 32.3920 14.5472 8.0462 32.3920 32 14.4449 4.9432 32.3920 14.8525 8.0073 32.3920 33 14.7216 4.9023 32.3920 15.1571 7.9631 32.3920 34 14.9980 4.8588 32.3920 15.4608 7.9126 32.3920 35 15.2741 4.8123 32.3920 15.7635 7.8568 32.3920 36 15.5495 4.7631 32.3920 16.0648 7.7950 32.3920 37 15.8246 4.7113 32.3920 16.3651 7.7282 32.3920 38 16.0990 4.6565 32.3920 16.6645 7.6558 32.3920 39 16.3728 4.5990 32.3920 16.9621 7.5784 32.3920 40 16.6462 4.5389 32.3920 17.2588 7.4957 32.3920 41 16.9186 4.4754 32.3920 17.5538 7.4080 32.3920 42 17.1907 4.4096 32.3920 17.8472 7.3153 32.3920 43 17.4618 4.3409 32.3920 18.1392 7.2179 32.3920 44 17.7326 4.2691 32.3920 18.4292 7.1156 32.3920 45 18.0020 4.1944 32.3920 18.7179 7.0086 32.3920 46 18.2711 4.1169 32.3920 19.0047 6.8970 32.3920 47 18.5392 4.0365 32.3920 19.2897 6.7807 32.3920 48 18.8063 3.9535 32.3920 19.5728 6.6601 32.3920 49 19.0724 3.8674 32.3920 19.8542 6.5352 32.3920 50 19.3379 3.7784 32.3920 20.1332 6.4056 32.3920 51 19.6023 3.6864 32.3920 20.4103 6.2718 32.3920 52 19.8654 3.5917 32.3920 20.6854 6.1339 32.3920 53 20.1279 3.4937 32.3920 20.9585 5.9917 32.3920 54 20.3890 3.3934 32.3920 21.2292 5.8455 32.3920 55 20.6488 3.2897 32.3920 21.4977 5.6950 32.3920 56 20.9076 3.1834 32.3920 21.7638 5.5405 32.3920 57 21.1654 3.0741 32.3920 22.0276 5.3821 32.3920 58 21.4219 2.9621 32.3920 22.2890 5.2196 32.3920 59 21.6771 2.8472 32.3920 22.5482 5.0535 32.3920 60 21.9309 2.7292 32.3920 22.8047 4.8834 32.3920 61 22.1831 2.6083 32.3920 23.0585 4.7093 32.3920 62 22.4342 2.4847 32.3920 23.3096 4.5316 32.3920 63 22.6841 2.3585 32.3920 23.5581 4.3502 32.3920 64 22.9322 2.2289 32.3920 23.8037 4.1645 32.3920 65 23.1787 2.0970 32.3920 24.0465 3.9754 32.3920 66 23.4239 1.9621 32.3920 24.2860 3.7824 32.3920 67 23.6678 1.8243 32.3920 24.5229 3.5857 32.3920 68 23.9096 1.6837 32.3920 24.7565 3.3854 32.3920 69 24.1502 1.5405 32.3920 24.9870 3.1814 32.3920 70 24.3887 1.3947 32.3920 25.2146 2.9741 32.3920 71 24.6259 1.2458 32.3920 25.4389 2.7635 32.3920 72 24.8615 1.0947 32.3920 25.6601 2.5498 32.3920 73 25.0950 0.9405 32.3920 25.8787 2.3329 32.3920 74 25.3269 0.7841 32.3920 26.0940 2.1130 32.3920 75 25.5571 0.6249 32.3920 26.3063 1.8904 32.3920 76 25.7854 0.4631 32.3920 26.5163 1.6651 32.3920 77 26.0123 0.2990 32.3920 26.7233 1.4372 32.3920 78 26.2369 0.1322 32.3920 26.9276 1.2073 32.3920 79 26.4601 −0.0365 32.3920 27.1296 0.9751 32.3920 80 26.6814 −0.2080 32.3920 27.3292 0.7409 32.3920 81 26.9007 −0.3817 32.3920 27.5272 0.5053 32.3920 82 27.1186 −0.5575 32.3920 27.7239 0.2688 32.3920 83 27.3346 −0.7355 32.3920 27.9196 0.0312 32.3920 84 27.5485 −0.9156 32.3920 28.1150 −0.2066 32.3920 85 27.7611 −1.0977 32.3920 28.3103 −0.4445 32.3920 86 27.9721 −1.2817 32.3920 28.5056 −0.6824 32.3920 87 28.1811 −1.4674 32.3920 28.7010 −0.9203 32.3920 88 28.3887 −1.6551 32.3920 28.8967 −1.1578 32.3920 89 28.5947 −1.8445 32.3920 29.0927 −1.3950 32.3920 90 28.7993 −2.0359 32.3920 29.2887 −1.6326 32.3920 91 29.0023 −2.2282 32.3920 29.4847 −1.8698 32.3920 92 29.2040 −2.4226 32.3920 29.6807 −2.1066 32.3920 93 29.4040 −2.6179 32.3920 29.8774 −2.3435 32.3920 94 29.6030 −2.8146 32.3920 30.0741 −2.5804 32.3920 95 29.8007 −3.0130 32.3920 30.2708 −2.8169 32.3920 96 29.9970 −3.2123 32.3920 30.4671 −3.0538 32.3920 97 30.1924 −3.4126 32.3920 30.6635 −3.2910 32.3920 98 30.3867 −3.6140 32.3920 30.8385 −3.8060 32.3920 99 30.5814 −3.8150 32.3920 30.8598 −3.5279 32.3920 100 30.8385 −3.8060 32.3920 7.3601 6.8767 43.1894 1 7.3601 6.8767 43.1894 7.4365 7.1389 43.1894 2 7.5213 6.6884 43.1894 7.6365 7.3359 43.1894 3 7.7591 6.5990 43.1894 7.8654 7.5003 43.1894 4 8.0110 6.5601 43.1894 8.1007 7.6558 43.1894 5 8.2658 6.5432 43.1894 8.3415 7.8013 43.1894 6 8.5203 6.5292 43.1894 8.5884 7.9375 43.1894 7 8.7748 6.5120 43.1894 8.8399 8.0645 43.1894 8 9.0289 6.4907 43.1894 9.0963 8.1811 43.1894 9 9.2831 6.4661 43.1894 9.3568 8.2884 43.1894 10 9.5365 6.4392 43.1894 9.6213 8.3854 43.1894 11 9.7900 6.4100 43.1894 9.8890 8.4731 43.1894 12 10.0432 6.3781 43.1894 10.1598 8.5508 43.1894 13 10.2960 6.3435 43.1894 10.4332 8.6189 43.1894 14 10.5482 6.3060 43.1894 10.7086 8.6774 43.1894 15 10.8000 6.2661 43.1894 10.9860 8.7269 43.1894 16 11.0518 6.2236 43.1894 11.2648 8.7671 43.1894 17 11.3027 6.1787 43.1894 11.5449 8.7980 43.1894 18 11.5535 6.1316 43.1894 11.8256 8.8206 43.1894 19 11.8037 6.0821 43.1894 12.1070 8.8346 43.1894 20 12.0535 6.0306 43.1894 12.3887 8.8402 43.1894 21 12.3030 5.9764 43.1894 12.6704 8.8375 43.1894 22 12.5518 5.9203 43.1894 12.9522 8.8269 43.1894 23 12.8000 5.8615 43.1894 13.2332 8.8090 43.1894 24 13.0478 5.8010 43.1894 13.5136 8.7837 43.1894 25 13.2950 5.7382 43.1894 13.7937 8.7512 43.1894 26 13.5419 5.6734 43.1894 14.0724 8.7116 43.1894 27 13.7877 5.6063 43.1894 14.3505 8.6651 43.1894 28 14.0336 5.5375 43.1894 14.6272 8.6123 43.1894 29 14.2784 5.4664 43.1894 14.9027 8.5532 43.1894 30 14.5229 5.3934 43.1894 15.1767 8.4880 43.1894 31 14.7668 5.3183 43.1894 15.4492 8.4166 43.1894 32 15.0100 5.2412 43.1894 15.7203 8.3399 43.1894 33 15.2525 5.1621 43.1894 15.9897 8.2575 43.1894 34 15.4944 5.0811 43.1894 16.2575 8.1694 43.1894 35 15.7355 4.9983 43.1894 16.5233 8.0764 43.1894 36 15.9761 4.9133 43.1894 16.7874 7.9784 43.1894 37 16.2159 4.8266 43.1894 17.0495 7.8751 43.1894 38 16.4551 4.7379 43.1894 17.3096 7.7674 43.1894 39 16.6937 4.6472 43.1894 17.5681 7.6548 43.1894 40 16.9312 4.5545 43.1894 17.8243 7.5379 43.1894 41 17.1681 4.4601 43.1894 18.0787 7.4166 43.1894 42 17.4043 4.3638 43.1894 18.3309 7.2910 43.1894 43 17.6399 4.2654 43.1894 18.5811 7.1615 43.1894 44 17.8744 4.1651 43.1894 18.8292 7.0279 43.1894 45 18.1083 4.0631 43.1894 19.0751 6.8904 43.1894 46 18.3412 3.9591 43.1894 19.3186 6.7492 43.1894 47 18.5731 3.8532 43.1894 19.5601 6.6040 43.1894 48 18.8043 3.7455 43.1894 19.7997 6.4555 43.1894 49 19.0349 3.6359 43.1894 20.0369 6.3033 43.1894 50 19.2641 3.5243 43.1894 20.2718 6.1478 43.1894 51 19.4927 3.4110 43.1894 20.5047 5.9890 43.1894 52 19.7203 3.2960 43.1894 20.7349 5.8272 43.1894 53 19.9472 3.1791 43.1894 20.9631 5.6621 43.1894 54 20.1728 3.0601 43.1894 21.1890 5.4937 43.1894 55 20.3977 2.9395 43.1894 21.4126 5.3223 43.1894 56 20.6213 2.8173 43.1894 21.6339 5.1478 43.1894 57 20.8442 2.6930 43.1894 21.8528 4.9701 43.1894 58 21.0661 2.5671 43.1894 22.0691 4.7897 43.1894 59 21.2870 2.4392 43.1894 22.2831 4.6063 43.1894 60 21.5066 2.3100 43.1894 22.4944 4.4203 43.1894 61 21.7256 2.1787 43.1894 22.7033 4.2312 43.1894 62 21.9432 2.0458 43.1894 22.9100 4.0395 43.1894 63 22.1598 1.9110 43.1894 23.1140 3.8452 43.1894 64 22.3754 1.7748 43.1894 23.3153 3.6485 43.1894 65 22.5900 1.6365 43.1894 23.5146 3.4492 43.1894 66 22.8033 1.4970 43.1894 23.7113 3.2475 43.1894 67 23.0156 1.3555 43.1894 23.9060 3.0439 43.1894 68 23.2269 1.2123 43.1894 24.0983 2.8382 43.1894 69 23.4369 1.0678 43.1894 24.2890 2.6306 43.1894 70 23.6458 0.9216 43.1894 24.4777 2.4213 43.1894 71 23.8538 0.7734 43.1894 24.6648 2.2106 43.1894 72 24.0605 0.6239 43.1894 24.8502 1.9987 43.1894 73 24.2661 0.4728 43.1894 25.0342 1.7854 43.1894 74 24.4704 0.3203 43.1894 25.2173 1.5711 43.1894 75 24.6734 0.1658 43.1894 25.3993 1.3561 43.1894 76 24.8754 0.0100 43.1894 25.5804 1.1402 43.1894 77 25.0761 −0.1472 43.1894 25.7608 0.9239 43.1894 78 25.2757 −0.3063 43.1894 25.9405 0.7070 43.1894 79 25.4741 −0.4668 43.1894 26.1196 0.4894 43.1894 80 25.6711 −0.6289 43.1894 26.2987 0.2718 43.1894 81 25.8668 −0.7924 43.1894 26.4771 0.0538 43.1894 82 26.0615 −0.9571 43.1894 26.6551 −0.1645 43.1894 83 26.2548 −1.1236 43.1894 26.8326 −0.3831 43.1894 84 26.4468 −1.2917 43.1894 27.0100 −0.6020 43.1894 85 26.6375 −1.4611 43.1894 27.1870 −0.8213 43.1894 86 26.8269 −1.6319 43.1894 27.3635 −1.0409 43.1894 87 27.0150 −1.8043 43.1894 27.5399 −1.2605 43.1894 88 27.2017 −1.9781 43.1894 27.7159 −1.4807 43.1894 89 27.3874 −2.1532 43.1894 27.8917 −1.7010 43.1894 90 27.5718 −2.3292 43.1894 28.0671 −1.9213 43.1894 91 27.7545 −2.5070 43.1894 28.2422 −2.1419 43.1894 92 27.9362 −2.6864 43.1894 28.4173 −2.3628 43.1894 93 28.1163 −2.8668 43.1894 28.5924 −2.5834 43.1894 94 28.2950 −3.0488 43.1894 28.7671 −2.8047 43.1894 95 28.4724 −3.2322 43.1894 28.9415 −3.0256 43.1894 96 28.6485 −3.4169 43.1894 29.1156 −3.2472 43.1894 97 28.8229 −3.6030 43.1894 29.2897 −3.4688 43.1894 98 28.9963 −3.7900 43.1894 29.4130 −3.9478 43.1894 99 29.1748 −3.9711 43.1894 29.4615 −3.6917 43.1894 100 29.4130 −3.9478 43.1894 9.0944 8.1944 53.9867 1 9.0944 8.1944 53.9867 9.1900 8.4159 53.9867 2 9.2020 8.0007 53.9867 9.3857 8.5674 53.9867 3 9.3927 7.8791 53.9867 9.6023 8.6880 53.9867 4 9.6050 7.7977 53.9867 9.8249 8.7983 53.9867 5 9.8256 7.7435 53.9867 10.0528 8.8957 53.9867 6 10.0478 7.6967 53.9867 10.2854 8.9821 53.9867 7 10.2698 7.6475 53.9867 10.5219 9.0571 53.9867 8 10.4914 7.5960 53.9867 10.7615 9.1216 53.9867 9 10.7120 7.5415 53.9867 11.0037 9.1757 53.9867 10 10.9319 7.4841 53.9867 11.2478 9.2196 53.9867 11 11.1512 7.4239 53.9867 11.4937 9.2542 53.9867 12 11.3694 7.3615 53.9867 11.7405 9.2791 53.9867 13 11.5874 7.2967 53.9867 11.9880 9.2953 53.9867 14 11.8047 7.2296 53.9867 12.2362 9.3033 53.9867 15 12.0213 7.1605 53.9867 12.4841 9.3030 53.9867 16 12.2369 7.0890 53.9867 12.7322 9.2950 53.9867 17 12.4518 7.0156 53.9867 12.9797 9.2794 53.9867 18 12.6664 6.9399 53.9867 13.2269 9.2565 53.9867 19 12.8801 6.8625 53.9867 13.4734 9.2269 53.9867 20 13.0930 6.7831 53.9867 13.7186 9.1907 53.9867 21 13.3053 6.7017 53.9867 13.9631 9.1482 53.9867 22 13.5166 6.6186 53.9867 14.2066 9.0993 53.9867 23 13.7276 6.5336 53.9867 14.4485 9.0449 53.9867 24 13.9379 6.4472 53.9867 14.6894 8.9847 53.9867 25 14.1472 6.3588 53.9867 14.9286 8.9189 53.9867 26 14.3561 6.2691 53.9867 15.1664 8.8482 53.9867 27 14.5641 6.1781 53.9867 15.4027 8.7724 53.9867 28 14.7718 6.0850 53.9867 15.6372 8.6914 53.9867 29 14.9784 5.9910 53.9867 15.8701 8.6060 53.9867 30 15.1847 5.8953 53.9867 16.1013 8.5159 53.9867 31 15.3904 5.7980 53.9867 16.3306 8.4213 53.9867 32 15.5950 5.6997 53.9867 16.5581 8.3223 53.9867 33 15.7993 5.5997 53.9867 16.7841 8.2193 53.9867 34 16.0027 5.4983 53.9867 17.0076 8.1120 53.9867 35 16.2056 5.3960 53.9867 17.2296 8.0010 53.9867 36 16.4076 5.2920 53.9867 17.4495 7.8860 53.9867 37 16.6093 5.1870 53.9867 17.6674 7.7674 53.9867 38 16.8103 5.0807 53.9867 17.8834 7.6449 53.9867 39 17.0103 4.9731 53.9867 18.0970 7.5189 53.9867 40 17.2100 4.8641 53.9867 18.3086 7.3894 53.9867 41 17.4086 4.7542 53.9867 18.5179 7.2561 53.9867 42 17.6070 4.6429 53.9867 18.7252 7.1196 53.9867 43 17.8043 4.5302 53.9867 18.9302 6.9801 53.9867 44 18.0013 4.4166 53.9867 19.1332 6.8369 53.9867 45 18.1973 4.3017 53.9867 19.3336 6.6907 53.9867 46 18.3927 4.1854 53.9867 19.5316 6.5412 53.9867 47 18.5874 4.0681 53.9867 19.7272 6.3887 53.9867 48 18.7814 3.9495 53.9867 19.9206 6.2332 53.9867 49 18.9744 3.8299 53.9867 20.1116 6.0748 53.9867 50 19.1668 3.7090 53.9867 20.2997 5.9130 53.9867 51 19.3588 3.5867 53.9867 20.4854 5.7485 53.9867 52 19.5495 3.4635 53.9867 20.6684 5.5811 53.9867 53 19.7399 3.3392 53.9867 20.8492 5.4106 53.9867 54 19.9292 3.2136 53.9867 21.0272 5.2382 53.9867 55 20.1179 3.0870 53.9867 21.2030 5.0628 53.9867 56 20.3060 2.9591 53.9867 21.3767 4.8857 53.9867 57 20.4930 2.8302 53.9867 21.5482 4.7060 53.9867 58 20.6794 2.7000 53.9867 21.7173 4.5246 53.9867 59 20.8651 2.5688 53.9867 21.8844 4.3412 53.9867 60 21.0498 2.4365 53.9867 22.0498 4.1561 53.9867 61 21.2339 2.3030 53.9867 22.2133 3.9694 53.9867 62 21.4169 2.1684 53.9867 22.3751 3.7817 53.9867 63 21.5993 2.0326 53.9867 22.5359 3.5924 53.9867 64 21.7807 1.8960 53.9867 22.6950 3.4020 53.9867 65 21.9615 1.7581 53.9867 22.8532 3.2106 53.9867 66 22.1415 1.6189 53.9867 23.0103 3.0186 53.9867 67 22.3203 1.4791 53.9867 23.1664 2.8259 53.9867 68 22.4987 1.3379 53.9867 23.3223 2.6329 53.9867 69 22.6757 1.1957 53.9867 23.4771 2.4392 53.9867 70 22.8522 1.0522 53.9867 23.6319 2.2449 53.9867 71 23.0279 0.9080 53.9867 23.7860 2.0505 53.9867 72 23.2027 0.7625 53.9867 23.9399 1.8558 53.9867 73 23.3764 0.6163 53.9867 24.0934 1.6611 53.9867 74 23.5495 0.4688 53.9867 24.2468 1.4658 53.9867 75 23.7216 0.3203 53.9867 24.3997 1.2704 53.9867 76 23.8927 0.1708 53.9867 24.5525 1.0751 53.9867 77 24.0631 0.0203 53.9867 24.7053 0.8794 53.9867 78 24.2326 −0.1312 53.9867 24.8575 0.6837 53.9867 79 24.4010 −0.2837 53.9867 25.0100 0.4877 53.9867 80 24.5688 −0.4372 53.9867 25.1618 0.2917 53.9867 81 24.7355 −0.5917 53.9867 25.3140 0.0953 53.9867 82 24.9013 −0.7468 53.9867 25.4658 −0.1010 53.9867 83 25.0664 −0.9033 53.9867 25.6173 −0.2973 53.9867 84 25.2306 −1.0605 53.9867 25.7691 −0.4937 53.9867 85 25.3937 −1.2189 53.9867 25.9206 −0.6904 53.9867 86 25.5558 −1.3781 53.9867 26.0718 −0.8867 53.9867 87 25.7173 −1.5379 53.9867 26.2233 −1.0834 53.9867 88 25.8777 −1.6990 53.9867 26.3744 −1.2801 53.9867 89 26.0372 −1.8608 53.9867 26.5259 −1.4767 53.9867 90 26.1960 −2.0236 53.9867 26.6771 −1.6734 53.9867 91 26.3538 −2.1874 53.9867 26.8282 −1.8701 53.9867 92 26.5106 −2.3518 53.9867 26.9794 −2.0671 53.9867 93 26.6664 −2.5173 53.9867 27.1306 −2.2638 53.9867 94 26.8216 −2.6831 53.9867 27.2817 −2.4605 53.9867 95 26.9761 −2.8502 53.9867 27.4329 −2.6575 53.9867 96 27.1292 −3.0179 53.9867 27.5837 −2.8545 53.9867 97 27.2817 −3.1864 53.9867 27.7346 −3.0515 53.9867 98 27.4336 −3.3558 53.9867 27.8110 −3.4787 53.9867 99 27.5973 −3.5103 53.9867 27.8761 −3.2542 53.9867 100 27.8110 −3.4787 53.9867 10.8674 9.3502 64.7841 1 10.8674 9.3502 64.7841 10.9814 9.5282 64.7841 2 10.9269 9.1608 64.7841 11.1714 9.6326 64.7841 3 11.0714 9.0189 64.7841 11.3744 9.7103 64.7841 4 11.2419 8.9090 64.7841 11.5824 9.7734 64.7841 5 11.4252 8.8209 64.7841 11.7944 9.8219 64.7841 6 11.6130 8.7435 64.7841 12.0086 9.8568 64.7841 7 11.8017 8.6684 64.7841 12.2249 9.8794 64.7841 8 11.9897 8.5914 64.7841 12.4419 9.8900 64.7841 9 12.1764 8.5113 64.7841 12.6591 9.8897 64.7841 10 12.3621 8.4286 64.7841 12.8764 9.8797 64.7841 11 12.5468 8.3442 64.7841 13.0927 9.8605 64.7841 12 12.7312 8.2585 64.7841 13.3083 9.8326 64.7841 13 12.9143 8.1708 64.7841 13.5226 9.7967 64.7841 14 13.0967 8.0811 64.7841 13.7359 9.7538 64.7841 15 13.2781 7.9894 64.7841 13.9472 9.7043 64.7841 16 13.4585 7.8960 64.7841 14.1571 9.6482 64.7841 17 13.6382 7.8010 64.7841 14.3658 9.5864 64.7841 18 13.8173 7.7050 64.7841 14.5724 9.5189 64.7841 19 13.9953 7.6070 64.7841 14.7771 9.4465 64.7841 20 14.1724 7.5076 64.7841 14.9804 9.3694 64.7841 21 14.3488 7.4066 64.7841 15.1817 9.2874 64.7841 22 14.5246 7.3043 64.7841 15.3811 9.2013 64.7841 23 14.6993 7.2007 64.7841 15.5787 9.1106 64.7841 24 14.8731 7.0957 64.7841 15.7744 9.0163 64.7841 25 15.0465 6.9894 64.7841 15.9684 8.9183 64.7841 26 15.2189 6.8821 64.7841 16.1605 8.8163 64.7841 27 15.3907 6.7731 64.7841 16.3505 8.7110 64.7841 28 15.5615 6.6635 64.7841 16.5385 8.6020 64.7841 29 15.7316 6.5522 64.7841 16.7249 8.4900 64.7841 30 15.9010 6.4399 64.7841 16.9093 8.3748 64.7841 31 16.0698 6.3266 64.7841 17.0914 8.2565 64.7841 32 16.2375 6.2123 64.7841 17.2721 8.1355 64.7841 33 16.4047 6.0967 64.7841 17.4505 8.0113 64.7841 34 16.5714 5.9804 64.7841 17.6269 7.8844 64.7841 35 16.7372 5.8631 64.7841 17.8013 7.7548 64.7841 36 16.9023 5.7445 64.7841 17.9738 7.6226 64.7841 37 17.0668 5.6252 64.7841 18.1442 7.4877 64.7841 38 17.2306 5.5050 64.7841 18.3126 7.3505 64.7841 39 17.3937 5.3837 64.7841 18.4791 7.2106 64.7841 40 17.5561 5.2618 64.7841 18.6435 7.0688 64.7841 41 17.7179 5.1389 64.7841 18.8063 6.9246 64.7841 42 17.8791 5.0153 64.7841 18.9668 6.7781 64.7841 43 18.0399 4.8907 64.7841 19.1256 6.6296 64.7841 44 18.1997 4.7651 64.7841 19.2821 6.4787 64.7841 45 18.3588 4.6392 64.7841 19.4369 6.3262 64.7841 46 18.5176 4.5123 64.7841 19.5897 6.1718 64.7841 47 18.6757 4.3844 64.7841 19.7402 6.0150 64.7841 48 18.8332 4.2558 64.7841 19.8890 5.8565 64.7841 49 18.9900 4.1269 64.7841 20.0352 5.6957 64.7841 50 19.1462 3.9970 64.7841 20.1794 5.5332 64.7841 51 19.3020 3.8661 64.7841 20.3213 5.3684 64.7841 52 19.4568 3.7349 64.7841 20.4611 5.2020 64.7841 53 19.6113 3.6030 64.7841 20.5987 5.0339 64.7841 54 19.7654 3.4704 64.7841 20.7349 4.8645 64.7841 55 19.9186 3.3372 64.7841 20.8694 4.6940 64.7841 56 20.0714 3.2030 64.7841 21.0030 4.5223 64.7841 57 20.2239 3.0684 64.7841 21.1359 4.3502 64.7841 58 20.3754 2.9332 64.7841 21.2678 4.1774 64.7841 59 20.5266 2.7973 64.7841 21.3993 4.0043 64.7841 60 20.6771 2.6611 64.7841 21.5302 3.8312 64.7841 61 20.8272 2.5239 64.7841 21.6611 3.6578 64.7841 62 20.9767 2.3864 64.7841 21.7920 3.4841 64.7841 63 21.1256 2.2482 64.7841 21.9226 3.3103 64.7841 64 21.2741 2.1093 64.7841 22.0532 3.1365 64.7841 65 21.4219 1.9701 64.7841 22.1837 2.9628 64.7841 66 21.5694 1.8299 64.7841 22.3143 2.7890 64.7841 67 21.7159 1.6897 64.7841 22.4445 2.6153 64.7841 68 21.8625 1.5485 64.7841 22.5748 2.4412 64.7841 69 22.0083 1.4070 64.7841 22.7050 2.2671 64.7841 70 22.1535 1.2648 64.7841 22.8352 2.0930 64.7841 71 22.2980 1.1223 64.7841 22.9654 1.9193 64.7841 72 22.4425 0.9791 64.7841 23.0957 1.7449 64.7841 73 22.5860 0.8355 64.7841 23.2256 1.5708 64.7841 74 22.7292 0.6914 64.7841 23.3555 1.3967 64.7841 75 22.8721 0.5468 64.7841 23.4854 1.2226 64.7841 76 23.0143 0.4017 64.7841 23.6153 1.0482 64.7841 77 23.1561 0.2561 64.7841 23.7452 0.8741 64.7841 78 23.2973 0.1100 64.7841 23.8751 0.6997 64.7841 79 23.4382 −0.0365 64.7841 24.0050 0.5252 64.7841 80 23.5784 −0.1837 64.7841 24.1349 0.3512 64.7841 81 23.7183 −0.3309 64.7841 24.2645 0.1767 64.7841 82 23.8575 −0.4791 64.7841 24.3944 0.0023 64.7841 83 23.9963 −0.6272 64.7841 24.5243 −0.1721 64.7841 84 24.1349 −0.7761 64.7841 24.6538 −0.3465 64.7841 85 24.2728 −0.9252 64.7841 24.7834 −0.5206 64.7841 86 24.4103 −1.0748 64.7841 24.9133 −0.6953 64.7841 87 24.5475 −1.2249 64.7841 25.0429 −0.8698 64.7841 88 24.6841 −1.3751 64.7841 25.1724 −1.0442 64.7841 89 24.8203 −1.5259 64.7841 25.3020 −1.2186 64.7841 90 24.9561 −1.6771 64.7841 25.4312 −1.3934 64.7841 91 25.0914 −1.8289 64.7841 25.5608 −1.5678 64.7841 92 25.2262 −1.9807 64.7841 25.6904 −1.7422 64.7841 93 25.3608 −2.1329 64.7841 25.8199 −1.9169 64.7841 94 25.4950 −2.2857 64.7841 25.9495 −2.0914 64.7841 95 25.6286 −2.4385 64.7841 26.0791 −2.2658 64.7841 96 25.7621 −2.5920 64.7841 26.2083 −2.4405 64.7841 97 25.8950 −2.7455 64.7841 26.3375 −2.6153 64.7841 98 26.0269 −2.9003 64.7841 26.3718 −2.9937 64.7841 99 26.1797 −3.0292 64.7841 26.4465 −2.8003 64.7841 100 26.3718 −2.9937 64.7841 12.2033 10.1239 73.5880 1 12.2033 10.1239 73.5880 12.3292 10.2701 73.5880 2 12.2282 9.9419 73.5880 12.5136 10.3412 73.5880 3 12.3362 9.7890 73.5880 12.7056 10.3894 73.5880 4 12.4734 9.6615 73.5880 12.9007 10.4223 73.5880 5 12.6252 9.5512 73.5880 13.0980 10.4402 73.5880 6 12.7847 9.4525 73.5880 13.2957 10.4445 73.5880 7 12.9472 9.3588 73.5880 13.4937 10.4359 73.5880 8 13.1083 9.2625 73.5880 13.6904 10.4153 73.5880 9 13.2678 9.1638 73.5880 13.8857 10.3837 73.5880 10 13.4266 9.0638 73.5880 14.0794 10.3422 73.5880 11 13.5841 8.9621 73.5880 14.2711 10.2920 73.5880 12 13.7405 8.8588 73.5880 14.4601 10.2332 73.5880 13 13.8960 8.7538 73.5880 14.6465 10.1674 73.5880 14 14.0505 8.6472 73.5880 14.8309 10.0944 73.5880 15 14.2040 8.5392 73.5880 15.0123 10.0156 73.5880 16 14.3565 8.4299 73.5880 15.1910 9.9309 73.5880 17 14.5080 8.3196 73.5880 15.3674 9.8409 73.5880 18 14.6588 8.2076 73.5880 15.5415 9.7462 73.5880 19 14.8086 8.0947 73.5880 15.7126 9.6468 73.5880 20 14.9575 7.9804 73.5880 15.8817 9.5435 73.5880 21 15.1053 7.8651 73.5880 16.0482 9.4365 73.5880 22 15.2528 7.7488 73.5880 16.2120 9.3256 73.5880 23 15.3990 7.6316 73.5880 16.3738 9.2113 73.5880 24 15.5449 7.5136 73.5880 16.5332 9.0940 73.5880 25 15.6897 7.3944 73.5880 16.6904 8.9734 73.5880 26 15.8342 7.2744 73.5880 16.8452 8.8502 73.5880 27 15.9777 7.1538 73.5880 16.9980 8.7243 73.5880 28 16.1206 7.0322 73.5880 17.1485 8.5957 73.5880 29 16.2628 6.9100 73.5880 17.2970 8.4648 73.5880 30 16.4047 6.7870 73.5880 17.4432 8.3312 73.5880 31 16.5455 6.6631 73.5880 17.5877 8.1957 73.5880 32 16.6860 6.5389 73.5880 17.7299 8.0581 73.5880 33 16.8259 6.4140 73.5880 17.8701 7.9183 73.5880 34 16.9654 6.2884 73.5880 18.0083 7.7767 73.5880 35 17.1040 6.1621 73.5880 18.1449 7.6332 73.5880 36 17.2425 6.0352 73.5880 18.2794 7.4880 73.5880 37 17.3801 5.9080 73.5880 18.4120 7.3412 73.5880 38 17.5176 5.7801 73.5880 18.5432 7.1927 73.5880 39 17.6545 5.6518 73.5880 18.6728 7.0432 73.5880 40 17.7910 5.5233 73.5880 18.8013 6.8924 73.5880 41 17.9269 5.3940 73.5880 18.9286 6.7409 73.5880 42 18.0625 5.2645 73.5880 19.0545 6.5880 73.5880 43 18.1977 5.1342 73.5880 19.1797 6.4346 73.5880 44 18.3326 5.0037 73.5880 19.3037 6.2804 73.5880 45 18.4668 4.8728 73.5880 19.4272 6.1256 73.5880 46 18.6010 4.7415 73.5880 19.5498 5.9701 73.5880 47 18.7346 4.6096 73.5880 19.6718 5.8143 73.5880 48 18.8678 4.4777 73.5880 19.7930 5.6578 73.5880 49 19.0007 4.3452 73.5880 19.9136 5.5007 73.5880 50 19.1329 4.2123 73.5880 20.0336 5.3432 73.5880 51 19.2651 4.0791 73.5880 20.1532 5.1854 73.5880 52 19.3970 3.9458 73.5880 20.2721 5.0272 73.5880 53 19.5286 3.8120 73.5880 20.3904 4.8684 73.5880 54 19.6598 3.6777 73.5880 20.5083 4.7093 73.5880 55 19.7907 3.5432 73.5880 20.6259 4.5502 73.5880 56 19.9213 3.4086 73.5880 20.7432 4.3907 73.5880 57 20.0515 3.2734 73.5880 20.8601 4.2309 73.5880 58 20.1814 3.1382 73.5880 20.9771 4.0711 73.5880 59 20.3110 3.0027 73.5880 21.0934 3.9110 73.5880 60 20.4402 2.8668 73.5880 21.2096 3.7508 73.5880 61 20.5694 2.7306 73.5880 21.3259 3.5904 73.5880 62 20.6980 2.5940 73.5880 21.4422 3.4302 73.5880 63 20.8266 2.4575 73.5880 21.5581 3.2698 73.5880 64 20.9548 2.3206 73.5880 21.6741 3.1090 73.5880 65 21.0827 2.1834 73.5880 21.7897 2.9485 73.5880 66 21.2106 2.0458 73.5880 21.9056 2.7880 73.5880 67 21.3379 1.9083 73.5880 22.0213 2.6272 73.5880 68 21.4651 1.7701 73.5880 22.1369 2.4664 73.5880 69 21.5920 1.6322 73.5880 22.2525 2.3060 73.5880 70 21.7186 1.4937 73.5880 22.3681 2.1452 73.5880 71 21.8452 1.3551 73.5880 22.4834 1.9844 73.5880 72 21.9711 1.2163 73.5880 22.5990 1.8236 73.5880 73 22.0970 1.0771 73.5880 22.7146 1.6628 73.5880 74 22.2226 0.9375 73.5880 22.8299 1.5020 73.5880 75 22.3482 0.7980 73.5880 22.9452 1.3409 73.5880 76 22.4731 0.6585 73.5880 23.0605 1.1801 73.5880 77 22.5980 0.5183 73.5880 23.1761 1.0193 73.5880 78 22.7226 0.3781 73.5880 23.2914 0.8581 73.5880 79 22.8472 0.2375 73.5880 23.4066 0.6973 73.5880 80 22.9714 0.0970 73.5880 23.5216 0.5362 73.5880 81 23.0950 −0.0439 73.5880 23.6369 0.3751 73.5880 82 23.2189 −0.1850 73.5880 23.7522 0.2143 73.5880 83 23.3422 −0.3262 73.5880 23.8671 0.0532 73.5880 84 23.4654 −0.4678 73.5880 23.9824 −0.1080 73.5880 85 23.5880 −0.6096 73.5880 24.0973 −0.2691 73.5880 86 23.7110 −0.7515 73.5880 24.2126 −0.4302 73.5880 87 23.8332 −0.8937 73.5880 24.3276 −0.5914 73.5880 88 23.9551 −1.0362 73.5880 24.4429 −0.7522 73.5880 89 24.0771 −1.1791 73.5880 24.5578 −0.9133 73.5880 90 24.1987 −1.3219 73.5880 24.6728 −1.0744 73.5880 91 24.3199 −1.4648 73.5880 24.7880 −1.2355 73.5880 92 24.4412 −1.6083 73.5880 24.9030 −1.3967 73.5880 93 24.5618 −1.7518 73.5880 25.0179 −1.5578 73.5880 94 24.6824 −1.8957 73.5880 25.1329 −1.7189 73.5880 95 24.8027 −2.0395 73.5880 25.2478 −1.8804 73.5880 96 24.9226 −2.1837 73.5880 25.3628 −2.0415 73.5880 97 25.0422 −2.3282 73.5880 25.4781 −2.2027 73.5880 98 25.1615 −2.4731 73.5880 25.4841 −2.5502 73.5880 99 25.3063 −2.5860 73.5880 25.5631 −2.3774 73.5880 100 25.4841 −2.5502 73.5880 13.3575 10.7080 82.3920 1 13.3538 10.5365 82.3920 13.4897 10.8269 82.3920 2 13.3575 10.7080 82.3920 13.6661 10.8728 82.3920 3 13.4282 10.3787 82.3920 13.8465 10.8977 82.3920 4 13.5342 10.2399 82.3920 14.0289 10.9070 82.3920 5 13.6558 10.1143 82.3920 14.2110 10.9013 82.3920 6 13.7877 9.9993 82.3920 14.3924 10.8814 82.3920 7 13.9246 9.8904 82.3920 14.5718 10.8488 82.3920 8 14.0615 9.7814 82.3920 14.7485 10.8043 82.3920 9 14.1977 9.6718 82.3920 14.9226 10.7492 82.3920 10 14.3329 9.5608 82.3920 15.0930 10.6847 82.3920 11 14.4674 9.4492 82.3920 15.2605 10.6120 82.3920 12 14.6013 9.3362 82.3920 15.4243 10.5319 82.3920 13 14.7342 9.2226 82.3920 15.5847 10.4449 82.3920 14 14.8664 9.1083 82.3920 15.7415 10.3518 82.3920 15 14.9980 8.9930 82.3920 15.8950 10.2535 82.3920 16 15.1289 8.8767 82.3920 16.0455 10.1505 82.3920 17 15.2588 8.7598 82.3920 16.1930 10.0429 82.3920 18 15.3884 8.6422 82.3920 16.3372 9.9312 82.3920 19 15.5173 8.5236 82.3920 16.4787 9.8159 82.3920 20 15.6452 8.4047 82.3920 16.6173 9.6977 82.3920 21 15.7728 8.2847 82.3920 16.7535 9.5761 82.3920 22 15.8997 8.1645 82.3920 16.8870 9.4518 82.3920 23 16.0259 8.0432 82.3920 17.0186 9.3256 82.3920 24 16.1515 7.9216 82.3920 17.1478 9.1967 82.3920 25 16.2767 7.7993 82.3920 17.2751 9.0661 82.3920 26 16.4013 7.6767 82.3920 17.4007 8.9336 82.3920 27 16.5252 7.5532 82.3920 17.5243 8.7997 82.3920 28 16.6488 7.4296 82.3920 17.6462 8.6638 82.3920 29 16.7721 7.3050 82.3920 17.7664 8.5266 82.3920 30 16.8947 7.1804 82.3920 17.8850 8.3880 82.3920 31 17.0166 7.0548 82.3920 18.0020 8.2482 82.3920 32 17.1382 6.9292 82.3920 18.1179 8.1073 82.3920 33 17.2595 6.8030 82.3920 18.2319 7.9651 82.3920 34 17.3804 6.6764 82.3920 18.3449 7.8216 82.3920 35 17.5007 6.5495 82.3920 18.4561 7.6771 82.3920 36 17.6206 6.4223 82.3920 18.5661 7.5319 82.3920 37 17.7402 6.2947 82.3920 18.6751 7.3854 82.3920 38 17.8595 6.1668 82.3920 18.7831 7.2385 82.3920 39 17.9784 6.0385 82.3920 18.8904 7.0907 82.3920 40 18.0970 5.9100 82.3920 18.9967 6.9425 82.3920 41 18.2153 5.7811 82.3920 19.1023 6.7940 82.3920 42 18.3332 5.6518 82.3920 19.2076 6.6449 82.3920 43 18.4508 5.5223 82.3920 19.3126 6.4957 82.3920 44 18.5681 5.3927 82.3920 19.4173 6.3465 82.3920 45 18.6854 5.2625 82.3920 19.5219 6.1970 82.3920 46 18.8020 5.1322 82.3920 19.6262 6.0475 82.3920 47 18.9186 5.0017 82.3920 19.7309 5.8977 82.3920 48 19.0349 4.8711 82.3920 19.8352 5.7482 82.3920 49 19.1508 4.7402 82.3920 19.9399 5.5990 82.3920 50 19.2664 4.6090 82.3920 20.0449 5.4495 82.3920 51 19.3821 4.4777 82.3920 20.1495 5.3003 82.3920 52 19.4973 4.3462 82.3920 20.2545 5.1512 82.3920 53 19.6123 4.2143 82.3920 20.3598 5.0020 82.3920 54 19.7272 4.0824 82.3920 20.4648 4.8532 82.3920 55 19.8419 3.9502 82.3920 20.5701 4.7040 82.3920 56 19.9565 3.8179 82.3920 20.6757 4.5551 82.3920 57 20.0708 3.6854 82.3920 20.7811 4.4063 82.3920 58 20.1847 3.5528 82.3920 20.8867 4.2575 82.3920 59 20.2987 3.4203 82.3920 20.9920 4.1086 82.3920 60 20.4126 3.2874 82.3920 21.0977 3.9601 82.3920 61 20.5262 3.1545 82.3920 21.2033 3.8113 82.3920 62 20.6399 3.0213 82.3920 21.3086 3.6625 82.3920 63 20.7532 2.8880 82.3920 21.4143 3.5136 82.3920 64 20.8664 2.7548 82.3920 21.5196 3.3648 82.3920 65 20.9794 2.6213 82.3920 21.6252 3.2159 82.3920 66 21.0927 2.4877 82.3920 21.7306 3.0671 82.3920 67 21.2053 2.3542 82.3920 21.8359 2.9183 82.3920 68 21.3183 2.2203 82.3920 21.9415 2.7694 82.3920 69 21.4309 2.0864 82.3920 22.0468 2.6203 82.3920 70 21.5432 1.9525 82.3920 22.1522 2.4714 82.3920 71 21.6558 1.8186 82.3920 22.2575 2.3226 82.3920 72 21.7681 1.6844 82.3920 22.3628 2.1738 82.3920 73 21.8804 1.5505 82.3920 22.4681 2.0246 82.3920 74 21.9927 1.4163 82.3920 22.5734 1.8757 82.3920 75 22.1050 1.2821 82.3920 22.6787 1.7269 82.3920 76 22.2169 1.1475 82.3920 22.7841 1.5777 82.3920 77 22.3289 1.0133 82.3920 22.8894 1.4289 82.3920 78 22.4409 0.8787 82.3920 22.9947 1.2801 82.3920 79 22.5528 0.7445 82.3920 23.1000 1.1309 82.3920 80 22.6648 0.6100 82.3920 23.2053 0.9821 82.3920 81 22.7764 0.4751 82.3920 23.3103 0.8329 82.3920 82 22.8880 0.3405 82.3920 23.4156 0.6837 82.3920 83 22.9997 0.2060 82.3920 23.5206 0.5349 82.3920 84 23.1113 0.0711 82.3920 23.6259 0.3857 82.3920 85 23.2229 −0.0635 82.3920 23.7312 0.2369 82.3920 86 23.3342 −0.1983 82.3920 23.8362 0.0877 82.3920 87 23.4458 −0.3332 82.3920 23.9415 −0.0611 82.3920 88 23.5571 −0.4681 82.3920 24.0468 −0.2103 82.3920 89 23.6684 −0.6030 82.3920 24.1518 −0.3595 82.3920 90 23.7797 −0.7382 82.3920 24.2571 −0.5083 82.3920 91 23.8907 −0.8731 82.3920 24.3621 −0.6575 82.3920 92 24.0020 −1.0083 82.3920 24.4671 −0.8066 82.3920 93 24.1130 −1.1435 82.3920 24.5724 −0.9558 82.3920 94 24.2243 −1.2784 82.3920 24.6774 −1.1050 82.3920 95 24.3355 −1.4136 82.3920 24.7824 −1.2542 82.3920 96 24.4465 −1.5488 82.3920 24.8874 −1.4030 82.3920 97 24.5568 −1.6844 82.3920 24.9751 −1.8757 82.3920 98 24.6681 −1.8193 82.3920 24.9930 −1.5518 82.3920 99 24.8096 −1.9146 82.3920 25.0561 −1.7189 82.3920 100 24.9751 −1.8757 82.3920 14.3515 11.1269 91.1960 1 14.3243 10.9681 91.1960 14.4850 11.2239 91.1960 2 14.3515 11.1269 91.1960 14.6515 11.2512 91.1960 3 14.3698 10.8110 91.1960 14.8203 11.2595 91.1960 4 14.4472 10.6668 91.1960 14.9890 11.2522 91.1960 5 14.5409 10.5322 91.1960 15.1568 11.2299 91.1960 6 14.6455 10.4060 91.1960 15.3216 11.1937 91.1960 7 14.7575 10.2860 91.1960 15.4834 11.1445 91.1960 8 14.8731 10.1701 91.1960 15.6412 11.0844 91.1960 9 14.9900 10.0548 91.1960 15.7950 11.0140 91.1960 10 15.1063 9.9392 91.1960 15.9442 10.9346 91.1960 11 15.2226 9.8236 91.1960 16.0894 10.8478 91.1960 12 15.3392 9.7083 91.1960 16.2306 10.7548 91.1960 13 15.4555 9.5927 91.1960 16.3678 10.6561 91.1960 14 15.5721 9.4774 91.1960 16.5010 10.5522 91.1960 15 15.6884 9.3618 91.1960 16.6306 10.4439 91.1960 16 15.8047 9.2462 91.1960 16.7571 10.3316 91.1960 17 15.9209 9.1306 91.1960 16.8801 10.2156 91.1960 18 16.0369 9.0146 91.1960 17.0000 10.0963 91.1960 19 16.1528 8.8983 91.1960 17.1166 9.9741 91.1960 20 16.2684 8.7824 91.1960 17.2306 9.8492 91.1960 21 16.3841 8.6658 91.1960 17.3422 9.7223 91.1960 22 16.4993 8.5495 91.1960 17.4522 9.5937 91.1960 23 16.6146 8.4326 91.1960 17.5601 9.4641 91.1960 24 16.7296 8.3156 91.1960 17.6671 9.3329 91.1960 25 16.8439 8.1980 91.1960 17.7731 9.2013 91.1960 26 16.9581 8.0804 91.1960 17.8781 9.0688 91.1960 27 17.0724 7.9625 91.1960 17.9824 8.9359 91.1960 28 17.1860 7.8445 91.1960 18.0860 8.8023 91.1960 29 17.2993 7.7259 91.1960 18.1890 8.6684 91.1960 30 17.4126 7.6073 91.1960 18.2920 8.5342 91.1960 31 17.5252 7.4880 91.1960 18.3940 8.3993 91.1960 32 17.6379 7.3688 91.1960 18.4957 8.2645 91.1960 33 17.7498 7.2492 91.1960 18.5970 8.1292 91.1960 34 17.8618 7.1292 91.1960 18.6980 7.9937 91.1960 35 17.9731 7.0090 91.1960 18.7987 7.8578 91.1960 36 18.0844 6.8884 91.1960 18.8990 7.7216 91.1960 37 18.1950 6.7674 91.1960 18.9990 7.5854 91.1960 38 18.3056 6.6462 91.1960 19.0987 7.4488 91.1960 39 18.4156 6.5246 91.1960 19.1983 7.3123 91.1960 40 18.5256 6.4027 91.1960 19.2977 7.1754 91.1960 41 18.6349 6.2807 91.1960 19.3970 7.0385 91.1960 42 18.7442 6.1581 91.1960 19.4960 6.9017 91.1960 43 18.8528 6.0355 91.1960 19.5950 6.7648 91.1960 44 18.9615 5.9126 91.1960 19.6940 6.6279 91.1960 45 19.0694 5.7894 91.1960 19.7930 6.4907 91.1960 46 19.1774 5.6658 91.1960 19.8920 6.3535 91.1960 47 19.2850 5.5422 91.1960 19.9910 6.2166 91.1960 48 19.3927 5.4183 91.1960 20.0900 6.0794 91.1960 49 19.4997 5.2940 91.1960 20.1887 5.9425 91.1960 50 19.6063 5.1694 91.1960 20.2880 5.8056 91.1960 51 19.7130 5.0449 91.1960 20.3870 5.6684 91.1960 52 19.8193 4.9199 91.1960 20.4860 5.5316 91.1960 53 19.9256 4.7950 91.1960 20.5854 5.3947 91.1960 54 20.0312 4.6698 91.1960 20.6844 5.2578 91.1960 55 20.1369 4.5442 91.1960 20.7837 5.1209 91.1960 56 20.2422 4.4186 91.1960 20.8831 4.9841 91.1960 57 20.3475 4.2927 91.1960 20.9824 4.8475 91.1960 58 20.4522 4.1668 91.1960 21.0817 4.7106 91.1960 59 20.5571 4.0405 91.1960 21.1811 4.5741 91.1960 60 20.6615 3.9143 91.1960 21.2804 4.4372 91.1960 61 20.7661 3.7877 91.1960 21.3801 4.3007 91.1960 62 20.8704 3.6611 91.1960 21.4794 4.1638 91.1960 63 20.9744 3.5346 91.1960 21.5787 4.0272 91.1960 64 21.0784 3.4076 91.1960 21.6784 3.8904 91.1960 65 21.1824 3.2807 91.1960 21.7777 3.7538 91.1960 66 21.2860 3.1538 91.1960 21.8771 3.6173 91.1960 67 21.3897 3.0266 91.1960 21.9767 3.4804 91.1960 68 21.4934 2.8997 91.1960 22.0761 3.3439 91.1960 69 21.5970 2.7724 91.1960 22.1754 3.2070 91.1960 70 21.7003 2.6452 91.1960 22.2748 3.0701 91.1960 71 21.8040 2.5179 91.1960 22.3741 2.9336 91.1960 72 21.9073 2.3907 91.1960 22.4734 2.7967 91.1960 73 22.0106 2.2635 91.1960 22.5728 2.6598 91.1960 74 22.1143 2.1362 91.1960 22.6721 2.5233 91.1960 75 22.2176 2.0090 91.1960 22.7714 2.3864 91.1960 76 22.3209 1.8817 91.1960 22.8708 2.2495 91.1960 77 22.4246 1.7545 91.1960 22.9701 2.1130 91.1960 78 22.5279 1.6272 91.1960 23.0694 1.9761 91.1960 79 22.6316 1.5000 91.1960 23.1691 1.8392 91.1960 80 22.7352 1.3728 91.1960 23.2684 1.7027 91.1960 81 22.8389 1.2458 91.1960 23.3678 1.5658 91.1960 82 22.9425 1.1186 91.1960 23.4671 1.4292 91.1960 83 23.0465 0.9917 91.1960 23.5668 1.2924 91.1960 84 23.1505 0.8651 91.1960 23.6661 1.1558 91.1960 85 23.2545 0.7382 91.1960 23.7654 1.0193 91.1960 86 23.3588 0.6116 91.1960 23.8651 0.8824 91.1960 87 23.4631 0.4850 91.1960 23.9645 0.7458 91.1960 88 23.5674 0.3588 91.1960 24.0641 0.6090 91.1960 89 23.6721 0.2326 91.1960 24.1635 0.4724 91.1960 90 23.7771 0.1063 91.1960 24.2628 0.3355 91.1960 91 23.8821 −0.0196 91.1960 24.3621 0.1987 91.1960 92 23.9870 −0.1455 91.1960 24.4611 0.0618 91.1960 93 24.0927 −0.2711 91.1960 24.5601 −0.0751 91.1960 94 24.1983 −0.3963 91.1960 24.6591 −0.2120 91.1960 95 24.3040 −0.5219 91.1960 24.7585 −0.3488 91.1960 96 24.4103 −0.6468 91.1960 24.8578 −0.4857 91.1960 97 24.5166 −0.7718 91.1960 24.9193 −0.9266 91.1960 98 24.6229 −0.8963 91.1960 24.9565 −0.6229 91.1960 99 24.7651 −0.9704 91.1960 24.9990 −0.7827 91.1960 100 24.9193 −0.9266 91.1960 15.0030 11.6246 100.0000 1 14.9615 11.4757 100.0000 15.1382 11.7053 100.0000 2 14.9884 11.3213 100.0000 15.2980 11.7199 100.0000 3 15.0030 11.6246 100.0000 15.4588 11.7193 100.0000 4 15.0465 11.1754 100.0000 15.6189 11.7043 100.0000 5 15.1216 11.0372 100.0000 15.7771 11.6754 100.0000 6 15.2073 10.9053 100.0000 15.9322 11.6332 100.0000 7 15.3013 10.7791 100.0000 16.0837 11.5791 100.0000 8 15.4010 10.6575 100.0000 16.2306 11.5140 100.0000 9 15.5033 10.5382 100.0000 16.3724 11.4385 100.0000 10 15.6063 10.4193 100.0000 16.5096 11.3545 100.0000 11 15.7100 10.3007 100.0000 16.6415 11.2628 100.0000 12 15.8146 10.1834 100.0000 16.7681 11.1638 100.0000 13 15.9196 10.0661 100.0000 16.8897 11.0581 100.0000 14 16.0252 9.9498 100.0000 17.0063 10.9478 100.0000 15 16.1316 9.8336 100.0000 17.1189 10.8329 100.0000 16 16.2382 9.7183 100.0000 17.2279 10.7146 100.0000 17 16.3455 9.6030 100.0000 17.3342 10.5940 100.0000 18 16.4528 9.4880 100.0000 17.4382 10.4714 100.0000 19 16.5608 9.3738 100.0000 17.5409 10.3475 100.0000 20 16.6691 9.2595 100.0000 17.6422 10.2226 100.0000 21 16.7774 9.1455 100.0000 17.7429 10.0973 100.0000 22 16.8860 9.0319 100.0000 17.8425 9.9711 100.0000 23 16.9950 8.9183 100.0000 17.9415 9.8442 100.0000 24 17.1040 8.8047 100.0000 18.0402 9.7173 100.0000 25 17.2130 8.6914 100.0000 18.1382 9.5900 100.0000 26 17.3219 8.5781 100.0000 18.2362 9.4625 100.0000 27 17.4312 8.4648 100.0000 18.3342 9.3349 100.0000 28 17.5402 8.3515 100.0000 18.4319 9.2073 100.0000 29 17.6495 8.2382 100.0000 18.5296 9.0794 100.0000 30 17.7585 8.1249 100.0000 18.6272 8.9515 100.0000 31 17.8674 8.0113 100.0000 18.7246 8.8236 100.0000 32 17.9764 7.8977 100.0000 18.8219 8.6957 100.0000 33 18.0850 7.7841 100.0000 18.9196 8.5678 100.0000 34 18.1937 7.6704 100.0000 19.0169 8.4399 100.0000 35 18.3023 7.5565 100.0000 19.1146 8.3120 100.0000 36 18.4106 7.4425 100.0000 19.2120 8.1841 100.0000 37 18.5186 7.3282 100.0000 19.3096 8.0565 100.0000 38 18.6266 7.2136 100.0000 19.4070 7.9286 100.0000 39 18.7342 7.0990 100.0000 19.5047 7.8007 100.0000 40 18.8415 6.9841 100.0000 19.6020 7.6728 100.0000 41 18.9488 6.8688 100.0000 19.6997 7.5449 100.0000 42 19.0558 6.7535 100.0000 19.7973 7.4173 100.0000 43 19.1625 6.6379 100.0000 19.8947 7.2894 100.0000 44 19.2688 6.5223 100.0000 19.9924 7.1615 100.0000 45 19.3751 6.4060 100.0000 20.0900 7.0336 100.0000 46 19.4811 6.2897 100.0000 20.1877 6.9060 100.0000 47 19.5867 6.1734 100.0000 20.2850 6.7781 100.0000 48 19.6920 6.0565 100.0000 20.3827 6.6502 100.0000 49 19.7973 5.9395 100.0000 20.4804 6.5226 100.0000 50 19.9020 5.8223 100.0000 20.5777 6.3947 100.0000 51 20.0066 5.7050 100.0000 20.6754 6.2668 100.0000 52 20.1110 5.5870 100.0000 20.7731 6.1389 100.0000 53 20.2153 5.4691 100.0000 20.8704 6.0110 100.0000 54 20.3193 5.3512 100.0000 20.9681 5.8834 100.0000 55 20.4229 5.2329 100.0000 21.0658 5.7555 100.0000 56 20.5262 5.1143 100.0000 21.1631 5.6276 100.0000 57 20.6292 4.9953 100.0000 21.2608 5.4997 100.0000 58 20.7322 4.8764 100.0000 21.3581 5.3718 100.0000 59 20.8349 4.7571 100.0000 21.4558 5.2439 100.0000 60 20.9372 4.6379 100.0000 21.5532 5.1163 100.0000 61 21.0395 4.5183 100.0000 21.6508 4.9884 100.0000 62 21.1415 4.3987 100.0000 21.7482 4.8605 100.0000 63 21.2435 4.2787 100.0000 21.8458 4.7326 100.0000 64 21.3452 4.1588 100.0000 21.9432 4.6047 100.0000 65 21.4465 4.0385 100.0000 22.0409 4.4767 100.0000 66 21.5478 3.9183 100.0000 22.1382 4.3488 100.0000 67 21.6492 3.7980 100.0000 22.2355 4.2209 100.0000 68 21.7502 3.6774 100.0000 22.3332 4.0930 100.0000 69 21.8512 3.5568 100.0000 22.4306 3.9651 100.0000 70 21.9522 3.4362 100.0000 22.5282 3.8372 100.0000 71 22.0532 3.3153 100.0000 22.6256 3.7093 100.0000 72 22.1538 3.1947 100.0000 22.7229 3.5814 100.0000 73 22.2548 3.0738 100.0000 22.8206 3.4535 100.0000 74 22.3555 2.9532 100.0000 22.9179 3.3256 100.0000 75 22.4561 2.8322 100.0000 23.0153 3.1977 100.0000 76 22.5568 2.7113 100.0000 23.1130 3.0698 100.0000 77 22.6575 2.5907 100.0000 23.2103 2.9419 100.0000 78 22.7585 2.4698 100.0000 23.3076 2.8140 100.0000 79 22.8591 2.3492 100.0000 23.4053 2.6860 100.0000 80 22.9601 2.2286 100.0000 23.5027 2.5581 100.0000 81 23.0611 2.1080 100.0000 23.6003 2.4302 100.0000 82 23.1625 1.9874 100.0000 23.6977 2.3023 100.0000 83 23.2638 1.8671 100.0000 23.7953 2.1748 100.0000 84 23.3654 1.7468 100.0000 23.8927 2.0468 100.0000 85 23.4671 1.6269 100.0000 23.9904 1.9189 100.0000 86 23.5688 1.5073 100.0000 24.0877 1.7910 100.0000 87 23.6711 1.3877 100.0000 24.1854 1.6631 100.0000 88 23.7734 1.2681 100.0000 24.2831 1.5352 100.0000 89 23.8761 1.1488 100.0000 24.3804 1.4076 100.0000 90 23.9791 1.0302 100.0000 24.4781 1.2797 100.0000 91 24.0824 0.9113 100.0000 24.5754 1.1515 100.0000 92 24.1860 0.7930 100.0000 24.6728 1.0236 100.0000 93 24.2900 0.6751 100.0000 24.7698 0.8957 100.0000 94 24.3947 0.5575 100.0000 24.8671 0.7674 100.0000 95 24.4993 0.4402 100.0000 24.9641 0.6392 100.0000 96 24.6047 0.3233 100.0000 25.0611 0.5110 100.0000 97 24.7103 0.2070 100.0000 25.1066 0.0877 100.0000 98 24.8179 0.0920 100.0000 25.1555 0.3811 100.0000 99 24.9618 0.0362 100.0000 25.1831 0.2256 100.0000 100 25.1066 0.0877 100.0000

TABLE II PRESSURE-SIDE SHROUD N X (%) Y (%) Z (%) 1 14.1753 −1.5584 59.2507 2 14.1857 −1.5665 59.4325 3 14.2359 −1.6080 59.6027 4 14.3199 −1.6779 59.7488 5 14.4285 −1.7686 59.8640 6 14.5526 −1.8724 59.9491 7 14.6818 −1.9806 60.0203 8 14.8130 −2.0904 60.0850 9 14.9456 −2.2015 60.1444 10 15.0797 −2.3138 60.1982 11 15.2150 −2.4272 60.2459 12 15.3514 −2.5415 60.2883 13 15.4886 −2.6565 60.3258 14 15.6265 −2.7720 60.3590 15 15.7649 −2.8881 60.3878 16 15.9039 −3.0046 60.4121 17 16.0432 −3.1214 60.4322 18 16.1828 −3.2385 60.4481 19 16.3227 −3.3558 60.4599 20 16.4627 −3.4733 60.4675 21 16.4545 −3.4671 60.2849 22 16.4464 −3.4609 60.1022 23 16.4382 −3.4547 59.9196 24 16.4300 −3.4486 59.7370 25 16.4219 −3.4424 59.5543 26 16.4137 −3.4362 59.3717 27 16.4055 −3.4300 59.1890 28 16.3974 −3.4238 59.0064 29 16.3892 −3.4177 58.8237 30 16.3810 −3.4115 58.6411 31 16.3729 −3.4053 58.4584 32 16.2570 −3.3089 58.2329 33 16.1169 −3.1913 58.2388 34 15.9770 −3.0739 58.2486 35 16.3647 −3.3991 58.2758 36 15.8373 −2.9566 58.2626 37 15.6979 −2.8396 58.2809 38 15.5589 −2.7228 58.3030 39 15.4202 −2.6064 58.3290 40 15.2821 −2.4904 58.3595 41 15.1448 −2.3750 58.3954 42 15.0084 −2.2605 58.4372 43 14.8730 −2.1467 58.4839 44 14.7385 −2.0336 58.5347 45 14.6060 −1.9222 58.5936 46 14.4791 −1.8155 58.6706 47 14.3656 −1.7198 58.7769 48 14.2723 −1.6410 58.9126 49 14.2059 −1.5848 59.0729 50 14.1753 −1.5584 59.2507 1 14.1744 1.6956 59.3973 2 14.2251 1.6540 59.6646 3 14.3444 1.5547 59.8925 4 14.5085 1.4177 60.0671 5 14.6976 1.2595 60.1927 6 14.8943 1.0948 60.2969 7 15.0938 0.9277 60.3915 8 15.2957 0.7587 60.4772 9 15.5000 0.5875 60.5519 10 15.7066 0.4144 60.6153 11 15.9149 0.2398 60.6685 12 16.1246 0.0640 60.7110 13 16.3354 −0.1128 60.7416 14 16.5471 −0.2904 60.7594 15 16.7592 −0.4683 60.7635 16 16.9711 −0.6462 60.7534 17 17.1824 −0.8235 60.7291 18 17.3927 −1.0001 60.6939 19 17.6024 −1.1762 60.6525 20 17.8118 −1.3521 60.6090 21 18.0213 −1.5280 60.5662 22 18.2309 −1.7041 60.5246 23 18.2185 −1.6947 60.2482 24 18.2062 −1.6854 59.9717 25 18.1938 −1.6760 59.6952 26 18.1815 −1.6667 59.4187 27 18.1691 −1.6573 59.1423 28 18.1567 −1.6480 58.8658 29 18.1444 −1.6386 58.5893 30 17.9911 −1.5104 58.4682 31 17.7845 −1.3373 58.4047 32 17.5778 −1.1640 58.3420 33 17.3702 −0.9901 58.2841 34 17.1613 −0.8150 58.2354 35 16.9510 −0.6386 58.1993 36 16.7395 −0.4613 58.1768 37 16.5275 −0.2834 58.1675 38 16.3154 −0.1055 58.1702 39 16.1036 0.0723 58.1842 40 15.8924 0.2497 58.2087 41 15.6820 0.4263 58.2432 42 15.4727 0.6021 58.2875 43 15.2648 0.7767 58.3420 44 15.0587 0.9500 58.4065 45 14.8542 1.1218 58.4795 46 14.6534 1.2906 58.5676 47 14.4680 1.4466 58.7005 48 14.3127 1.5777 58.8874 49 14.2070 1.6673 59.1256 50 14.1744 1.6956 59.3973 1 14.1933 4.9316 59.1866 2 14.2007 4.9269 59.5750 3 14.3571 4.7969 59.9087 4 14.5968 4.5966 60.1465 5 14.8707 4.3674 60.3124 6 15.1540 4.1301 60.4490 7 15.4405 3.8902 60.5740 8 15.7301 3.6476 60.6862 9 16.0229 3.4023 60.7828 10 16.3182 3.1548 60.8651 11 16.6155 2.9056 60.9344 12 16.9145 2.6549 60.9897 13 17.2150 2.4029 61.0274 14 17.5166 2.1499 61.0444 15 17.8184 1.8966 61.0395 16 18.1196 1.6438 61.0145 17 18.4197 1.3918 60.9730 18 18.7187 1.1408 60.9197 19 19.0168 0.8903 60.8590 20 19.3144 0.6404 60.7937 21 19.6114 0.3910 60.7239 22 19.9076 0.1421 60.6492 23 20.2035 −0.1064 60.5716 24 20.4994 −0.3550 60.4947 25 20.5637 −0.4101 60.1995 26 20.5253 −0.3793 59.8085 27 20.4870 −0.3485 59.4175 28 20.4486 −0.3178 59.0266 29 20.1882 −0.0998 58.8840 30 19.8987 0.1427 58.7716 31 19.6094 0.3851 58.6581 32 19.3193 0.6281 58.5482 33 19.0280 0.8721 58.4439 34 18.7355 1.1172 58.3453 35 18.4417 1.3634 58.2540 36 18.1459 1.6113 58.1749 37 17.8476 1.8614 58.1138 38 17.5472 2.1133 58.0744 39 17.2456 2.3663 58.0568 40 16.9438 2.6196 58.0584 41 16.6423 2.8726 58.0760 42 16.3414 3.1252 58.1073 43 16.0416 3.3770 58.1515 44 15.7430 3.6277 58.2089 45 15.4463 3.8770 58.2801 46 15.1513 4.1248 58.3628 47 14.8587 4.3706 58.4587 48 14.5810 4.6042 58.6110 49 14.3422 4.8055 58.8486 50 14.1933 4.9316 59.1866

TABLE III SUCTION-SIDE SHROUD N X (%) Y (%) Z (%) 1 16.4942 11.6795 60.4485 2 16.6770 11.5264 60.5537 3 16.9267 11.3170 60.5647 4 17.1764 11.1074 60.5621 5 17.4261 10.8979 60.5504 6 17.6755 10.6885 60.5335 7 17.9249 10.4792 60.5150 8 18.1742 10.2699 60.4958 9 18.4235 10.0607 60.4752 10 18.6726 9.8515 60.4521 11 18.9216 9.6425 60.4270 12 19.1706 9.4335 60.4013 13 19.4196 9.2244 60.3764 14 19.6688 9.0153 60.3528 15 19.9178 8.8062 60.3289 16 20.1667 8.5973 60.3012 17 20.4149 8.3889 60.2655 18 20.6621 8.1813 60.2194 19 20.9087 7.9742 60.1676 20 21.1537 7.7684 60.1064 21 21.3515 7.6017 59.9187 22 21.3854 7.5722 59.6068 23 21.2248 7.7060 59.3667 24 20.9897 7.9029 59.2570 25 20.7514 8.1025 59.1583 26 20.5118 8.3032 59.0656 27 20.2703 8.5055 58.9814 28 20.0272 8.7093 58.9057 29 19.7834 8.9136 58.8339 30 19.5397 9.1178 58.7612 31 19.2964 9.3216 58.6865 32 19.0533 9.5254 58.6110 33 18.8100 9.7293 58.5362 34 18.5665 9.9333 58.4628 35 18.3227 10.1376 58.3908 36 18.0787 10.3421 58.3198 37 17.8347 10.5466 58.2497 38 17.5903 10.7514 58.1810 39 17.3453 10.9567 58.1165 40 17.0991 11.1631 58.0610 41 16.8513 11.3709 58.0193 42 16.6023 11.5798 57.9931 43 16.4896 11.6749 58.1658 44 16.4903 11.6756 58.4919 45 16.4909 11.6762 58.8180 46 16.4916 11.6769 59.1441 47 16.4922 11.6775 59.4702 48 16.4929 11.6782 59.7963 49 16.4935 11.6788 60.1224 50 16.4942 11.6795 60.4485 1 17.9676 13.1529 60.2434 2 18.1213 13.0241 60.2845 3 18.3008 12.8736 60.2918 4 18.4803 12.7230 60.2967 5 18.6598 12.5723 60.2987 6 18.8393 12.4217 60.2980 7 19.0189 12.2710 60.2946 8 19.1983 12.1204 60.2890 9 19.3778 11.9698 60.2813 10 19.5571 11.8193 60.2714 11 19.7364 11.6688 60.2589 12 19.9155 11.5184 60.2436 13 20.0945 11.3682 60.2258 14 20.2734 11.2180 60.2058 15 20.4518 11.0682 60.1803 16 20.6296 10.9189 60.1479 17 20.8071 10.7699 60.1132 18 20.9847 10.6207 60.0801 19 21.1601 10.4734 60.0313 20 21.3125 10.3450 59.9129 21 21.3949 10.2752 59.7088 22 21.3669 10.2978 59.4815 23 21.2457 10.3988 59.3121 24 21.0803 10.5373 59.2218 25 20.9094 10.6805 59.1495 26 20.7386 10.8235 59.0767 27 20.5670 10.9673 59.0072 28 20.3942 11.1120 58.9430 29 20.2205 11.2576 58.8833 30 20.0461 11.4037 58.8268 31 19.8713 11.5501 58.7727 32 19.6963 11.6968 58.7199 33 19.5209 11.8438 58.6694 34 19.3451 11.9911 58.6211 35 19.1690 12.1387 58.5749 36 18.9926 12.2866 58.5311 37 18.8158 12.4348 58.4896 38 18.6387 12.5833 58.4506 39 18.4613 12.7320 58.4141 40 18.2836 12.8810 58.3797 41 18.1058 13.0301 58.3468 42 17.9639 13.1492 58.3684 43 17.9643 13.1497 58.6027 44 17.9648 13.1501 58.8371 45 17.9653 13.1506 59.0715 46 17.9657 13.1511 59.3059 47 17.9662 13.1515 59.5402 48 17.9667 13.1520 59.7746 49 17.9671 13.1525 60.0090 50 17.9676 13.1529 60.2434 1 19.4410 14.6263 60.0168 2 19.5490 14.5357 60.0123 3 19.6570 14.4450 60.0082 4 19.7651 14.3544 60.0043 5 19.8731 14.2637 60.0001 6 19.9811 14.1731 59.9953 7 20.0891 14.0825 59.9897 8 20.1970 13.9919 59.9832 9 20.3049 13.9013 59.9758 10 20.4128 13.8107 59.9678 11 20.5206 13.7202 59.9589 12 20.6284 13.6297 59.9491 13 20.7361 13.5393 59.9380 14 20.8438 13.4489 59.9258 15 20.9514 13.3586 59.9138 16 21.0591 13.2682 59.9016 17 21.1655 13.1788 59.8782 18 21.2654 13.0948 59.8257 19 21.3469 13.0260 59.7347 20 21.3931 12.9868 59.6086 21 21.3893 12.9895 59.4690 22 21.3382 13.0320 59.3458 23 21.2555 13.1010 59.2557 24 21.1567 13.1837 59.1990 25 21.0532 13.2704 59.1581 26 20.9488 13.3579 59.1215 27 20.8443 13.4454 59.0851 28 20.7399 13.5329 59.0484 29 20.6353 13.6205 59.0123 30 20.5305 13.7083 58.9775 31 20.4255 13.7963 58.9441 32 20.3203 13.8845 58.9116 33 20.2150 13.9727 58.8794 34 20.1096 14.0610 58.8477 35 20.0041 14.1494 58.8168 36 19.8985 14.2380 58.7867 37 19.7928 14.3266 58.7572 38 19.6870 14.4152 58.7276 39 19.5814 14.5037 58.6976 40 19.4758 14.5922 58.6671 41 19.4385 14.6238 58.7471 42 19.4388 14.6241 58.8882 43 19.4390 14.6244 59.0293 44 19.4393 14.6247 59.1703 45 19.4396 14.6249 59.3114 46 19.4399 14.6252 59.4525 47 19.4402 14.6255 59.5936 48 19.4405 14.6258 59.7346 49 19.4407 14.6261 59.8757 50 19.4410 14.6263 60.0168

It will also be appreciated that the airfoil 52 disclosed in the above Tables I, II and III may be scaled up or down geometrically for use in other similar turbine designs. Consequently, the coordinate values set forth in Tables I, II and III may be scaled upwardly or downwardly such that the airfoil profile shape remains unchanged. A scaled version of the coordinates in Tables I, II and III would be represented by X, Y and Z coordinate values of Table I, with the X, Y and Z non-dimensional coordinate values converted to inches, multiplied or divided by a constant number.

An important term in this disclosure is “profile”. The profile is the range of the variation between measured points on an airfoil surface and the ideal position listed in Tables I, II and III. The actual profile on a manufactured turbine rotor blade will be different than those in Tables I, II and III and the design is robust to this variation meaning that mechanical and aerodynamic function are not impaired. As noted above, a + or −5% profile tolerance is used herein. The X, Y and Z values are all non-dimensionalized relative to the airfoil height.

The disclosed airfoil shape optimizes and is specific to the machine conditions and specifications. It provides a unique profile to achieve 1) interaction between other stages in the turbine 10; 2) aerodynamic efficiency; and 3) normalized aerodynamic and mechanical blade loadings. The disclosed loci of points defined in Table I allow the gas turbine 12 or any other suitable turbine to run in an efficient, safe and smooth manner. As also noted, any scale of the disclosed airfoil 52 may be adopted as long as 1) interaction between other stages in the pressure turbine 10; 2) aerodynamic efficiency; and 3) normalized aerodynamic and mechanical blade loadings are maintained in the scaled turbine.

This written description uses examples to disclose the invention, including the best mode, and also to enable any person skilled in the art to practice the invention, including making and using any devices or systems and performing any incorporated methods. The patentable scope of the invention is defined by the claims, and may include other examples that occur to those skilled in the art. Such other examples are intended to be within the scope of the claims if they have structural elements that do not differ from the literal language of the claims, or if they include equivalent structural elements with insubstantial differences from the literal languages of the claims. 

What is claimed is:
 1. A turbine rotor blade including an airfoil having an airfoil shape, the airfoil having a nominal profile substantially in accordance with Cartesian coordinate values of X, Y and Z set forth in Table I, wherein the Cartesian coordinate values of X, Y and Z are non-dimensional values from 0% to 100% convertible to dimensional distances in inches by multiplying the Cartesian coordinate values of X, Y and Z by a height of the airfoil in inches, and wherein X and Y are distances in inches which, when connected by smooth continuing arcs, define airfoil profile sections at each distance Z, the airfoil profile sections at Z distances being joined smoothly with one another to form a complete airfoil shape.
 2. The turbine rotor blade as in claim 1, forming part of a fourth stage of turbine rotor blades of a turbine of a gas turbine.
 3. The turbine rotor blade as in claim 1, wherein the turbine rotor blade includes a part-span shroud having a pressure-side shroud disposed along a pressure-side of the airfoil.
 4. The turbine rotor blade as in claim 1, wherein the airfoil shape lies in an envelope within +/−5% in a direction normal to any airfoil surface location.
 5. The turbine rotor blade as in claim 1, wherein a height of the turbine rotor blade is 5 inches to 50 inches.
 6. A turbine rotor blade including an airfoil having a suction-side uncoated nominal airfoil profile substantially in accordance with suction-side Cartesian coordinate values of X, Y and Z set forth in Table I, wherein the Cartesian coordinate values of X, Y and Z are non-dimensional values from 0% to 100% convertible to dimensional distances in inches by multiplying the Cartesian coordinate values of X, Y and Z by a height of the airfoil in inches, and wherein X and Y are distances in inches which, when connected by smooth continuing arcs, define airfoil profile sections at each Z distance, the airfoil profile sections at the Z distances being joined smoothly with one another to form a complete suction-side airfoil shape, the X, Y and Z distances being scalable as a function of the same constant or number to provide a scaled-up or scaled-down airfoil.
 7. The turbine rotor blade as in claim 6, forming part of a stage of a turbine, and.
 8. The turbine rotor blade as in claim 6, wherein the turbine rotor blade forms a part of a fourth stage of turbine rotor blades of a turbine of a gas turbine.
 9. The turbine rotor blade as in claim 6, wherein the suction-side airfoil shape lies in an envelope within +/−5% in a direction normal to any suction-side airfoil surface location.
 10. The turbine rotor blade as in claim 6, wherein a height of the turbine rotor blade is about 5 inches to about 50 inches.
 11. The turbine rotor blade as in claim 6, wherein the turbine rotor blade includes a part-span shroud having a suction-side shroud disposed along the suction-side of the airfoil.
 12. A turbine comprising a turbine wheel having a plurality of turbine rotor blades, each of the turbine rotor blades including an airfoil having a suction-side airfoil shape, the airfoil having a nominal profile substantially in accordance with suction-side Cartesian coordinate values of X, Y and Z set forth in Table I wherein the Cartesian coordinate values of X, Y and Z are non-dimensional values from 0% to 100% convertible to dimensional distances by multiplying the Cartesian coordinate values of X, Y and Z by a height of the airfoil, and wherein X and Y are distances which, when connected by smooth continuing arcs, define airfoil profile sections at each Z distance, the airfoil profile sections at the Z distances being joined smoothly with one another to form a complete suction-side airfoil shape.
 13. The turbine as in claim 12, wherein the turbine wheel comprises a stage of the turbine.
 14. The turbine as in claim 12, wherein X represents a distance parallel to the turbine axis of rotation.
 15. The turbine as in claim 12, wherein the suction-side airfoil shape lies in an envelope within +/−5% in a direction normal to any suction-side airfoil surface location.
 16. The turbine as in claim 12, wherein a height of the turbine rotor blade is about 5 inches to about 50 inches.
 17. The turbine as in claim 12, wherein each of the turbine rotor blades includes an airfoil having a pressure-side airfoil shape, the airfoil having a nominal profile substantially in accordance with pressure-side Cartesian coordinate values of X, Y and Z set forth in Table I wherein the pressure-side Cartesian coordinate values of X, Y and Z are non-dimensional values from 0% to 100% convertible to dimensional distances by multiplying the pressure-side Cartesian coordinate values of X, Y and Z by a height of the airfoil, and wherein X and Y are distances which, when connected by smooth continuing arcs, define airfoil profile sections at each Z distance, the airfoil profile sections at Z distances being joined smoothly with one another to form a complete airfoil shape.
 18. The turbine as in claim 17, wherein the turbine rotor blade is a fourth stage turbine rotor blade.
 19. The turbine as in claim 17, wherein X represents a distance parallel to the turbine axis of rotation.
 20. The turbine as in claim 17, wherein the airfoil shape lies in an envelope within +/−5% in a direction normal to any airfoil surface location. 